聚合物表面羟基化及其在化学键组装和生物功能化方面的研究
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摘要
在有机聚合物材料表面引入单层羟基有着重要的意义:羟基除了可以增大聚合物的表面自由能,改善聚合物表面的性能外,还可以和多种化合物反应,从而达到对表面进一步改性和功能化的目的;同时还可以为聚合物膜表面的自组装以及蛋白质在聚合物表面的功能化提供基础。本论文的主要工作如下:
1、基于已经报道在聚合物表面引入硫酸根阴离子基团的方法,利用水解反应将硫酸根阴离子基团转变成羟基。水接触角测试结果表明在30℃水解14小时,静态水接触角基本保持稳定,水解反应达到平衡;利用三氟乙酸酐衍生化反应证实了表面羟基的存在;利用X-射线光电子能谱(XPS)考察了硫酸根阴离子基团转变成羟基的百分率:对于双向拉伸聚丙烯膜(BOPP)、低密度聚乙烯膜和聚对苯二甲酸乙二醇酯膜转化率分别为50.6、62.1和46.0%。利用水接触角研究了光照时间、紫外光强度和过硫酸铵(APS)浓度对羟基化的影响,光照时间增加、紫外光强度增大和APS浓度增大都使羟基化BOPP膜水接触角降低。
2、将羟基化BOPP膜(BOPP-OH)表面的羟基和利用紫外光辐照二苯甲酮偶合到BOPP膜(BOPP-BPOH)表面所生成的羟基作为原始反应位,通过对苯二甲酰氯(TPC)/双酚A(BPA)和TPC/对苯二胺(PPD)化学键组装制备了以共价键结合的、稳定的、分子水平的多层组装膜。通过紫外-
It was significant that hydroxyl groups were introduced onto polymer surface. Hydroxyl groups not only could increase the polymer surface free energy and improve the polymer surface property, but also could react with many kinds of compounds in order to further modify polymer surface; at the same time, hydroxyl groups on polymer surface provided a foundation for self-assembly and protein functionalization. The main contents of this thesis were as follows:
1. Hydroxylation was proceeded by hydrolysis of the sulfate anion groups which were developed from previous work. The hydrolysis reaction could be monitored by measuring the static water contact angle (CA) of the hydrolyzed film. At beginning, CA underwent a significant increase, then increased gradually and leveled off after about 14 hr; the trifluoroacetic anhydride derivatization reaction was used to confirm hydroxyl groups on the surface. The conversion of sulfate anion groups to hydroxyl groups was measured by X-ray photoelectron spectroscopy (XPS): the conversions were 50.6% on BOPP (biaxially oriented polypropylene), 62.1% on LDPE (low-density
1、基于已经报道在聚合物表面引入硫酸根阴离子基团的方法,利用水解反应将硫酸根阴离子基团转变成羟基。水接触角测试结果表明在30℃水解14小时,静态水接触角基本保持稳定,水解反应达到平衡;利用三氟乙酸酐衍生化反应证实了表面羟基的存在;利用X-射线光电子能谱(XPS)考察了硫酸根阴离子基团转变成羟基的百分率:对于双向拉伸聚丙烯膜(BOPP)、低密度聚乙烯膜和聚对苯二甲酸乙二醇酯膜转化率分别为50.6、62.1和46.0%。利用水接触角研究了光照时间、紫外光强度和过硫酸铵(APS)浓度对羟基化的影响,光照时间增加、紫外光强度增大和APS浓度增大都使羟基化BOPP膜水接触角降低。
2、将羟基化BOPP膜(BOPP-OH)表面的羟基和利用紫外光辐照二苯甲酮偶合到BOPP膜(BOPP-BPOH)表面所生成的羟基作为原始反应位,通过对苯二甲酰氯(TPC)/双酚A(BPA)和TPC/对苯二胺(PPD)化学键组装制备了以共价键结合的、稳定的、分子水平的多层组装膜。通过紫外-
It was significant that hydroxyl groups were introduced onto polymer surface. Hydroxyl groups not only could increase the polymer surface free energy and improve the polymer surface property, but also could react with many kinds of compounds in order to further modify polymer surface; at the same time, hydroxyl groups on polymer surface provided a foundation for self-assembly and protein functionalization. The main contents of this thesis were as follows:
1. Hydroxylation was proceeded by hydrolysis of the sulfate anion groups which were developed from previous work. The hydrolysis reaction could be monitored by measuring the static water contact angle (CA) of the hydrolyzed film. At beginning, CA underwent a significant increase, then increased gradually and leveled off after about 14 hr; the trifluoroacetic anhydride derivatization reaction was used to confirm hydroxyl groups on the surface. The conversion of sulfate anion groups to hydroxyl groups was measured by X-ray photoelectron spectroscopy (XPS): the conversions were 50.6% on BOPP (biaxially oriented polypropylene), 62.1% on LDPE (low-density
引文
[1] Yoshikimi Uyama, Koichi Kato, Yoshito Ikada. Surface Modification of Polymers by Grafting[J]. Advances in Polymer Science, 1998, 137:1-39
[2] Hoffman, A. S. Surface modification of polymers: physical, chemical, mechanical and biological methods[J]. Macromol. Symp., 1996, 101: 443-454
[3] 阎卫东,胡友良.聚烯烃功能化研究进展[J].高分子通报,1998,(2):51-55
[4] 金日光,华幼卿.高分子物理[M],北京:化学工业出版社,2000,P235
[5] 张增民.以聚丙烯为中心的改性技术[J].塑料科技,1997,(6):18-23
[6] 肖迎红,车剑飞,吉法祥.短切玻纤增强聚丙烯表面的化学处理及其表征[J].南京理工大学学报,1995,19(1):46.52
[7] Torstensson M, Ranby B. Hult A. Monomeric Surfactants for Surface Modification of Polymers[J]. Macromolecules, 1990, 23: 126-130
[8] Rao, M. H.,Rao,K. N. Radiation Induced Grafting of Mixed Monomers onto Polyester and Polypropylene Fibers[J]. J. Appl. Polym. Sci., 1987, 33:2707-2714
[9] Inaba, M., Ogumi, Z., Takehara, Z. Application of the Solid Polymer Electrolyte Method to Organic Electrochemistry. (XIV)[J]. J. Electrochem. Sot., 1993, 140: 19-22
[10] Memetea, T., Stannett, V. Radiation Grafting to PET Fibres[J]. Polymer, 1979, 20:465-468
[11] Shkolnik, S., Behar, D. Radiation-induced Grafting of Sulfonates on Polyethylene[J]. J. Appl. Polym. Sci., 1982, 27:2189-2196
[12] Haruvy, Y., Rajbenbach, L. A. Grafting of Acrylamide to Nylon-6 by the Electron-beam Preirradiation Technique. Ⅱ. Kinetic Aspects and Film Permeability[J]. J. Appl. Polym. Sci., 1982, 27:2711-2723
[13] Ishigaki, I., Sugo, T., Senoo, K. Graft Polymerization of Acrylic Acid onto Polythylene Film by Preirradiation Method. I. Effects of Preirradiation Dose, Monomer Concentration, Reaction Temperature, and Film Thickness[J]. J. Appl. Polym. Sci., 1982, 27:1033-1041
[14] Omichi, H., Okamoto, J. Synthesis of Ion-exchange Membranes by Radiation-induced Multiple Grafting of Methyl α, β, β-trifiuoroacrylate[J]. J.??Polym. Sci.: Polym. Chem. Ed., 1982, 20:521-528
[15] Bhattacharyya, S.N., Maldas, D. Radiation-induced Graft Copoymerization of Mixtures of Styrene and Acrylamide onto Cellulose Acetate. Ⅰ. Effect of Solvents[J]. J. Polym. Sci.: Polym. Chem. Ed., 1982, 20:939-950
[16] Kaji, K. Grafting of Polyacrylic Acid onto PE Filament and its Distribution[J]. J. Appl. Polym. Sci., 1983, 28:3767-3777
[17] Okamoto, J., Sugo, T., Katakai, A. Amidoxime-group-containing Adsorbents for Metal Ions Synthesized by Radiation-induced Grafting[J]. J. Appl. Polym. Sci., 1985, 30:2967-2977
[18] O'Neill, T. Grafting of Acrylic Acid onto Radiation-peroxidized Polypropylene Film in the Presence of Ferrous Ion[J]. J. Polym. Sci., 1972, A10:569-580
[19] Matsuzaki, K., Nakamura, S., Shindo, S. Radiation-induced Graft Copolymerization of Mixtures of Styrene and n-butyl Acrylate onto Cellulose and Cellulose Triacetate[J]. J. Appl. Polym. Sci., 1972, 16:1339-1355
[20] Oster, M. I., Rogers, C. E. Modification of Membrane Permselectivity by Graft Copolymerization[J]. J. Appl. Polym. Sci., 1974, 18:1359-1371
[21] Kale, P.D., Lokhande, H.T. Grafting on Polyester Fibers[J]. J. Appl. Polym. Sci., 1975, 19:461-480
[22] Harris, J.A., Arthur, J.C. Radiation-initiated Graft Copolymerization of Binary Monomer Mixtures Containing Acrylonitrile with Cotton Cellulose[J]. J. Appl. Polym. Sci., 1970, 14:3113-3128
[23] Ratner, B.D., Weathersby, P. K., Hoffman, A.S., Radiation-grafted Hydrogels for Biomaterial Applications as Studied by the ESCA Technique[J]. J. Appl. Polym. Sci., 1978, 22:643-664
[24] Ruthy Sfez, Liu De-Zhong, Iva Turyan, Daniel Mandler, Shlomo Yitzchaik. Polyaniline Monolayer Self-Assembled on Hydroxyl-Terminated Surfaces[J]. Langmuir, 2001, 17:2556-2559
[25] Richard D. Peters, Xiao M. Yang, Tae K. Kim, B. H. Sohn, Paul F. Nealey. Using Self-Assembled Monolayers Exposed to X-rays To Control the Wetting Behavior of Thin Films of Diblock Copolymers[J]. Langmuir, 2000, 16:4625-4631
[26] Michael D. K. Ingall, Charles H. Honeyman, Juanita V. Mercure, Patricia A. Bianconi, Roderick R. Kunz. Surface Functionalization and Imaging Using Monolayers and Surface-Grafted Polymer Layers[J]. J. Am. Chem. Soc. 1999,??121:3607-3613
[27] Zheyuan Huang, Pen-Cheng Wang, Alan G. MacDiarmid, Younan Xia, George Whitesides. Selective Deposition of Conducting Polymers on Hydroxyl-Terminated Surfaces with Printed Monolayers of Alkylsiloxanes as Templates[J]. Langmuir, 1997, 13:6480-6484
[28] Paolo Facci, Dario Alliata, Laura Andolfi, Bernhard Schnyder, Rudiger Kotz. Formation and characterization of protein monolayers on oxygen-exposing surfaces by multiple-step self-chemisorption[J]. Surface Science. 2002, 504: 282-292
[29] Niroshan Ramachandran, Eugenie Hainsworth, Bhupinder Bhullar, Samuel Eisenstein, Benjamin Rosen, Albert Y. Lau, Johannes C. Walter, Joshua LaBaer. Self-Assembling Protein Microarrays[J]. Science, 2004, 305:86-90
[30] Stefano Tugulu, Anke Arnold, India Sielaff, Kai Johnsson, Harm-Anton Klok. Protein-Functionalized Polymer Brushes[J]. Biomacromolecules, 2005, 6: 1602-1607
[31] 童勤义,孙国梁,徐晓莉,等.硅片直接健合中表面活化的研究[J].电子学报,1990,18(3):32-36
[32] 陈志敏,杨连生,刘仲明,刘芳.压电免疫传感器在梅毒检测中的研究.分析测试学报,2004,23(3):39-42
[33] 屈海云,王海涛,黄懿,陆豪杰,钟伟,孔继烈,等.有机玻璃微流控芯片表面的蛋白质固定化及应用研究[J].高等学校化学学报,2004,25,Suppl.59-60
[34] Bergbreiter, David E. Polyethylene surface chemistry[J]. Prog. Polym. Sci., 1994, 19:529-560
[35] E. Occhiello, M. Morra, G. Morini, F. Garbassi, P. Humphrey. Oxygen-plasma-treated polypropylene interfaces with air, water, and epoxy resins: Part Ⅰ. Air and water[J]. Journal of Applied Polymer Science. 1991, 42(2): 551-559
[36] Hopkins, J.; Wheale, S. H.; Badyal, J. P. S. Synergistic Oxidation at the Plasma/Polymer Interface[J]. J. Phys. Chem., 1996, 100(33): 14062-14066
[37] Barton, D.; Bradley, J. W.; Steele, D. A.; Short, R. D. Investigating Radio Frequency Plasmas Used for the Modification of Polymer Surfaces[J]. J. Phys. Chem. B., 1999, 103(21): 4423-4430[38] M. E. Ryan, J. P. S. Badyal. Surface Texturing of PTFE Film Using Nonequilibrium Plasmas[J]. Macromolecules, 1995, 28(5): 1377-1382
[39] France, R. M. Short, R. D. Plasma Treatment of Polymers: The Effects of Energy Transfer from an Argon Plasma on the Surface Chemistry of Polystyrene, and Polypropylene. A High-Energy Resolution X-ray Photoelectron Spectroscopy Study[J]. Langrnuir, 1998, 14(17): 4827-4835
[40] Koichiro Kato. Change of polypropylene film surface by chromic acid mixture treatment[J]. Journal of Applied Polymer Science, 1975, 19(6): 1593-1599
[41] P. Blais, D. J. Carlsson, G.W. Csullog, D. M. Wiles. The chromic acid etching of polyolefin surfaces, and adhesive bonding[J]. J. Colloid. Interface. Sci., 1974, 47(3): 636-649
[42] D. R. Fitchmun, S. Newman, R. Wiggle. Electroplating on crystalline polypropylene. Ⅰ. Compression molding and adhesion[J]. Journal of Applied Polymer Science, 1970, 14(10): 2441-2455
[43] D. R. Fitchmun, S. Newman, R. Wiggle. Electroplating on crystalline polypropylene. Ⅱ. Injection molding and adhesion. Journal of Applied Polymer[J]. Science, 1970, 14(10): 2457-2468
[44] C.E.M. Morris. Adhesive bonding of polyethylene[J]. J. Appl. Polym. Sci., 1970, 14:2171-2181
[45] D.A. House. Kinetics and mechanism of oxidations by peroxydisulfate[J]. Chem. Rev., 1962, 62(3): 185-203
[46] W.K. Wilmarth, A. Haim. Peroxide Reaction Mechanism[M]. J. O. Edwards (Ed.), New York: Interscience, 1962.175
[47] C.H. Bamford, K. G. AI-Lamee. Studies in polymer surface functionalization and grafting for biomedical and other applications[J].Polymer, 1994, 35(13): 2844-2852
[48] Price, G. J.; Keen, F.; Clifton, A. A. Sonochemically-Assisted Modification of Polyethylene Surfaces[J]. Macromolecules, 1996, 29(17): 5664-5670
[49] Kubota, Hitoshi; Hariya, Yayoi; Kuroda, Shin-ichi; Kondo, Takashi. Effect of photoirradiation on potassium persulfate-surface oxidation of low-density polyethylene film[J]. Polym. Degrad. Stab., 2001, 72:223-227
[50] Kang-Wook Lee, Thomas J. McCarthy. Surface-Selective Hydroxylation of Polypropylene[J]. Macromolecules, 1988, 21: 309-313[51] Peng Yang, Jian Yuan Deng, Wan Tai Yang. Confined photo-catalytic oxidation: a fast surface hydrophilic modification method for polymeric materials[J]. Polymer, 2003, 44:7157-7164
[52] 邓建平,杨万泰.表面光接枝技术及其在分离膜中的应用[J].膜科学与技术,1999,19(3):13-18
[53] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Photograft Polymerization of Binary Monomers Maleic Anhydride and n-Butyl Vinyl Ether on Polypropylene Film. 1. Effects of Principal Factors[J]. Polymer Journal, 2002, 34(11): 801-808
[54] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Photograft Polymerization of Binary Monomers Maleic Anhydride and n-Butyl Vinyl Ether on Polypropylene Film. 2. Some Mechanistical Aspects[J]. Polymer Journal, 2002, 34(11): 809-816
[55] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Graft Polymerization of Binary Monomers Maleic Anhydride/n-Butyl Vinyl Ether on the Polypropylene Film via Two-step Method[J]. Polymer Journal, 2002, 35(8): 613-621
[56] Deng Jianping, Yang Wantai. Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex.Ⅷ. Charge-Transfer Complex (4) [J]. Journal of Applied Polymer Science, 2006, 99: 2710-2720
[57] Deng Jianping, Yang Wantai.Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅸ. Charge-Transfer Complex (5)[J]. Journal of Applied Polymer Science, 2005, 97, 2230-2237
[58] Deng Jianping, Yang Wantai.Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅵ. Charge-Transfer Complex (2)[J]. Journal of Applied Polymer Science, 2005, 95, 910-915
[59] Deng Jianping, Yang Wantai. Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅴ. Charge-Transfer Complex (1)[J]. Journal of Applied Polymer Science, 2005, 95, 903 -909[60] Deng Jianping, Yang Wantai. Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅳ. Maleic Anhydride[J]. Journal of Applied Polymer Science, 2003, 87, 2318-2325
[61] Wantai Yang, Bengt Ranby. Bulk Surface Photografting Process and Its Applications. Ⅱ. Principal Factors Affecting Surface Photografting[J]. Journal of' Applied Polymer Science, 1996, 62, 545-555
[62] Wantai Yang, Bengt Ranby. Bulk Surface Photografting Process and Its Applications. Ⅰ. Reactions and Kinetics[J]. Journal of Applied Polymer Science, 1996, 62, 533-543
[63] Jian-Ping Deng, Wantai Yang, Bengt Ranby. Surface Photografting Polymerization of Vinyl Acetate (VAc), Maleic Anhydride (MAH), and Their Charge Transfer Complex (CTC). Ⅲ. VAc(3)[J]. Journal of Applied Polymer Science, 2001, 80, 1426-1433
[64] Jian-Ping Deng, Wantai Yang, Bengt Ranby. Surface Photografting Polymerization of Vinyl Acetate(VAc), Maleic Anhydride, and Their Charge Transfer Complex. Ⅱ. VAc(2)[J]. Journal of Applied Polymer Science, 2000, 77, 1522-1531
[65] Jian-Ping Deng, Wantai Yang, Bengt Ranby. Surface Photografting Polymerization of Vinyl Acetate(VAc), Maleic Anhydride, and Their Charge Transfer Complex. Ⅰ. VAc(1)[J]. Journal of Applied Polymer Science, 2000, 77, 1513-1521
[66] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Functionalization of Polypropylene Film via UV-Induced Photografting of N-Vinylpyrrolidone/Maleic Anhydride Binary Monomers[J]. Macromol. Chem. Phys. 2005, 206, 1106-1113
[67] G M Whitesides, J P Mathias, C T Seto. Molecular self-assembly and nanochemistry: a chemical strategy for the synthesis of nanostructures[J]. Science, 1991, 254:1312-1319
[68] 王娟娟,晁小练,杨祖培.分子自组装技术的研究现状[J].塑料科技,2004, (4):42-47
[69] 任恕.膜受体与传感器[M].北京:科学出版社,1996.
[70] Zhang Shuguang. Emerging biological materials through molecular self-assembly[J]. Biotechnology Advances, 2002, 20(5-6): 321-339
[71] Corinne L D. Estimating the Efficiency of Self-Assemblies [J]. Journal of??Supramolecular Chemistry, 2001, 1: 39-52
[72] 刘海林,马晓燕,袁莉,黄韵.分子自组装研究进展[J].材料科学与工程学报,2004,22(2):308-311
[73] Iler R. K.. Multilayers of Colloidal Particles[J]. J. Colloid Interface Science, 1966, 21:569-594
[74] Decher, C., Hong, J.-D., Buildup of Ultrathin Multilayer Films by a Self-Assembly Process: I. Consecutive Adsorption of Anionic and Cationic Bipolar Amphiphiles[J]. Makromol. Chem., Macromol. Symp., 1991, 46: 321-327
[75] G.Decher, J. D. Hong, Buildup of ultrathin multilayer films by a self-assembly process: II. Consecutive adsorption of anionic and cationic bipolar amphiphiles and polyelectrolytes on charged surfaces[J]. Bet. Bunsen-Ges. Phys. Chem. 1991, 95:1430-1434
[76] Decher, G., Hong, J.-D., Schmitt, J., Buildup of Ultrathin Multilayer Films by a Self-Assembly Process: Ⅲ. Consecutively Alternating Adsorption of Anionic and Cationic Polyelectrolytes on Charged Surfaces[J]. Thin Solid Films, 1992, 210/211:831-835
[77] Gero Decher. Fuzzy Nanoassemblies: Toward Layered Polymeric Multicomposites[J]. Science, 1997, 277:1232-1237
[78] 沈家骢,张希,孙铁鹏[J].分子沉积膜.自然科学进展,1997,7(1):1-6
[79] Steven W. Keller, Hyuk-Nyun Kim, Thomas E. Mallouk. Layer-by-Layer Assembly of Intercalation Compounds and Heterostructures on Surfaces: Toward Molecular "Beaker" Epitaxy[J]. J. Am. Chem. Soc. 1994, 116:8817-8818
[80] 吴涛,张希.自组装超薄膜:从纳米层状构筑到功能组装[J].高等学校化学学报,2001,22(6):1057-1065
[81] 李小甫,余海湖,姜德生.静电自组装技术及其应用[J].高技术通讯,2002,(11):51-54
[82] Elbert, D. L.; Herbert, C. B.; Hubbell, J. A. Thin Polymer Layers Formed by Polyelectrolyte Multilayer Techniques on Biological Surfaces[J]. Langrnuir, 1999, 15(16): 5355-5362
[83] Dong-Chan Lee, Bong-Jun Chang, Gustavo M. Morales, Young Ah Jang, Man-Kit Ng, Stephen T. Heller, Luping Yu. Functional polymers for layer-by-layer construction of multilayers via chemoselective immobilization[J].??Macromolecules, 2004, 37:1849-1856
[84] Chan, E. W.; Lee, D.-C.; Ng, M.-K.; Wu, G; Lee, K. Y. C.; Yu, L. A novel layer-by-layer approach to immobilization of polymers and nanoelusters[J]. J. Am. Chem. Soc. 2002, 124:12238-12243
[85] Eugene W. L. Chan and Luping Yu. Chemoselective immobilization of gold nanoparticles onto self-assembled monolayers[J]. Langrnuir, 2002, 18:311-313
[86] Zhaohui Yang, Jinyu Chen, Weixiao Cao. Self-assembled ultra-thin films fabricated from diazoresin and phenol-formaldehyde resin via H-bonding interaction[J]. Polymer International, 2004, 53:815-819
[87] Lan Huang, Guobin Luo, Xinsheng Zhao, Jinyu Chen, Weixiao Cao. Self-assembled multilayer films based on diazoresins studied by atomic force microscopy/friction force microscopy[J]. Journal of Applied Polymer Science, 2000, 78:631-638
[88] Qi Li, Jianhua Ouyang, Jinyu Chen, Xinsheng Zhao, Weixiao Cao. Photosensitive, self-assembled ultrathin films based on diazoresin and phosphate-containing polyanions[J]. Journal of Polymer Science: Part A: Polymer Chemistry, 2002, 40:222-228
[89] Hong Zhong, Jinfeng Wang, Xinru Jia, Ying Li, Yang Qin, Jinyu Chen, Xinsheng Zhao, Weixiao Cao, Mingqian Li, Yen Wei. Fabrication of covalently attached ultrathin films based on dendrimers via H-bonding attraction and subsequent UV irradiation[J]. Macromol. Rapid Commun., 2001, 22:583-586
[90] Jinyu Chen, Hao Luo, Boxuan Yang, Weixiao Cao. Photoimaging technique on printing A1 plate via self-assembly multilayer films based on diazoresin[J]. Journal of Applied Polymer Science, 2001, 80:1983-1987
[91] Zhaohui Yang, Weixiao Cao. Self-assemblies based on poly(4-diazonium styrene)[J]. Macromol. Chem. Phys., 2004, 205:241-246
[92] Tingbing Cao, Jinyu Chen, Chaohui Yang, Weixiao Cao. Fabrication of a stable layer-by-layer thin film based on diazoresin and phenolic hydroxy-containing polymers via H-bonding[J]. Macromol. Rapid Commun. 2001, 22:181-184
[93] Yang Zhaohui, Cao Weixiao. Covalently attached self-assembly of ultrathin films from hydroxy-containing porphyrin and diazoresin[J]. Joumal of Polymer Science: Part A: Polymer Chemistry, 2003, 41: 3103-3108
[94] Yongjun Zhang, Weixiao Cao. Stable self-assembled multilayer films of diazo??resin and poly(maleic anhydride-co-styrene) based on charge-transfer interaction[J]. Langmuir, 2001, 17:5021-5024
[95] Tingbing Cao, Liuhe Wei, Shuming Yang, Maofeng Zhang, Chunhui Huang, Weixiao Cao. Self-Assembly and Photovoltaic Property of Covalent-Attached Multilayer Film Based on Highly Sulfonated Polyaniline and Diazoresin[J]. Langmuir, 2002, 18:750-753
[97] Jingfeng Wang, Xinru Jia, Hong Zhong, Yufei Luo, Xinsheng Zhao, Weixiao Cao, and Mingqian Li. Self-Assembled Multilayer Films Based on Dendrimers with Covalent Interlayer Linkage[J]. Chem. Mater., 2002, 14:2854-2858
[97] Tingbing Cao, Shuming Yang, Jie Cao, Maofeng Zhang, Chunhui Huang, Weixiao Cao. Nanoassembly Film of Carboxylic Polyaniline with Photosensitive Diazoresin and Its Photoelectric Conversion Properties[J]. J. Phys. Chem., B, 2001, 105:11941-11944
[98] Jinyu Chen, Lan Huang, Liming Ying, Guobin Luo, Xinsheng Zhao, Weixiao Cao. Self-Assembly Ultrathin Films Based on Diazoresins[J]. Langrnuir, 1999, 15:7208-7212
[99] Tingbing Cao, Fang Wei, Yanlian Yang, Lan Huang, Xinsheng Zhao, and Weixiao Cao. Microtribologic Properties of a Covalently Attached Nanostructured Self-Assembly Film Fabricated from Fullerene Carboxylic Acid and Diazoresin[J]. Langmuir, 2002, 18:5186-5189
[100] 曹廷炳,杨术明,张茂峰,黄春辉,曹维孝.含磺化聚苯胺和重氮树脂自组装超薄膜的制备及其光电转换性能[J].高等学校化学学报,2002,23(6):1213-1215
[101] 翁健,张拥军,罗传秋,曹维孝.聚氨基苯腈自组装膜及其光谱分析[J].光谱学与光谱分析,2001,21(2):190-192
[102] 王洋,张茂峰,李琪,曹维孝.聚乙烯醇缩甲酰苯基-乙烯基吡啶鎓盐的自组装膜及图案化[J].高等学校化学学报,2004,25(10):1975-1977
[103] 曹维孝,丛海林.带羧基乳胶颗粒的制备、聚集以及与重氮树脂的自组装[J].精细化工,2002,19(9):518-520
[104] 杨朝晖,曹维孝.一种含有偶氮磺酸基与吡啶基的高分子氢键自组装及自组装超薄膜[J].高分子学报,2004,(5):776-779
[105] 杨朝晖,江 玮,曹维孝.聚4-重氮基苯乙烯与聚苯乙烯磺酸钠的自组装[J].??高分子学报,2003,(3):442-444
[106] 杨朝辉,曹廷炳,陈金玉,曹维孝.聚N-对羟苯基丙烯酰胺与重氮树脂的氢键自组装[J].高等学校化学学报,2002,23(2):342-344
[107] 曹维孝.光敏性聚电解质重氮树脂及其自组装[J].高分子通报,2002,(1):1-5
[108] 黄兰,顾倩颐,何元康,罗国宾,赵新生,曹维孝.含C60的聚电解质自组装膜微摩擦性能的研究[J].高等学校化学学报,2002,23(6):1193-1197
[109] 赵楠,鲁从华,曹维孝.重氮树脂基磁性超薄膜及其图形化[J].高分子学报,2004,(3):458-461
[110] 黄兰,黄飞,何元康,魏芳,赵新生,曹维孝.水溶性含C60聚电解质的制备及其与重氮树脂自组装膜AFMPFFM的初步研究[J].高分子学报,2002,(2):192-197
[111] Yongiun Zhang, Shuguang Yang, Ying Guan, Weixiao Cao, and Jian Xu. Fabrication of Stable Hollow Capsules byCovalent Layer-by-Layer Self-Assembly[J]. Macromolecules, 2003, 36:4238-4240
[112] Tingbing Cao, Shuming Yang, Yanlian Yang, Chunhui Huang, Weixiao Cao. Photoelectric Conversion Property of Covalent-Attached Multilayer Self-Assembled Films Fabricated from Diazoresin and Fullerol[J]. Langmuir, 2001, 17: 6034-6036
[113] Tingbing Cao, Fang Wei, Xiaoming Jiao, Jinyu Chen, Wei Liao, Xinsheng Zhao, Weixiao Cao. Micropattems of Protein and Conducting Polymer Molecules Fabricated by Layer-by-Layer Self-Assembly and Photolithography Techniques[J]. Langmuir, 2003, 19:8127-8129
[114] Conghua Lu, Fang Wei, Nianzu Wu, Lan Huang, Xinsheng Zhao, Xiaoming Jiao, Chuanqiou Luo, Weixiao Cao. Au Nanoparticle Micropatterns Prepared from Self-Assembled Films[J]. Langmuir, 2004, 20:974-977
[115] Jinyu Chen, Guobin Luo, Weixiao Cao. Fabrication of a Covalently Attached Multilayer Film via In-Situ Reaction[J]. Macromol. Rapid Commun., 2001, 22: 311-314
[116] Jinyu Chen, Hao Luo, Weixiao Cao. Interaction of diazoresins and sulfonate containing polyelectrolytes[J]. Polymer International, 2000, 49:382-386
[117] Yongjun Zhang, Weixiao Cao. Fabrication of an ESA Multilayer Film from a Diazo Resin by Direct Surface Charge Reversal[J]. Macromol. Rapid Commun.,??2001, 22:842-845
[118] Xi Zhang, Yipeng Sun, Manglai Gao, Xiangxing Kong, Jiacong Shen. Effects of pH on the supramolecular structure of polymeric molecular deposition films[J]. Macromol. Chem. Phys. 1996, 197:509-515
[119] Wei Kong, Xi Zhang, Mang Lai Gao, Hui Zhou, Wei Li, Jia Cong Shen. A new kind of immobilized enzyme multilayer based on cationic and anionic interaction[J]. Macromolecular Rapid Communications. 1994, 15(5): 405-409
[120] Yipeng Sun, Xi Zhanga, Changging Sun, Bo Wang, Jiacong Shen. Fabrication of ultrathin film containing bienzyme of glucose oxidase and glucoamylase based on electrostatic interaction and its potential application as a maltose sensor[J]. Macromol. Chem. Phys. 1996, 197:147-153
[121] Yuri Lvov, Katsuhiko Ariga, Izumi Ichinose, Toyoki Kunitake. Assembly of Multicomponent Protein Films by Means of Electrostatic Layer-by-Layer Adsorption[J]. J. Am. Chem. Soc., 1995, 117(22): 6117-6123
[122] Caruso, F.; Mohwald, H. Protein Multilayer Formation on Colloids through a Stepwise Self-Assembly Technique[J]. J. Am. Chem. Sot., 1999, 121(25): 6039-6046
[123] Caruso, F.; Schuler, C. Enzyme Multilayers on Colloid Particles: Assembly, Stability, and Enzymatic Activity[J]. Langmuir, 2000, 16(24): 9595-9603
[124] Frank Caruso, Harald Fiedler, Klaus Haage. Assembly of b-glucosidase multilayers on spherical colloidal particles and their use as active catalysts[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2000, 169: 287-293
[125] 吕德水,林汉枫,李扬眉,徐立恒,林贤福.LBL自组装技术及自组装生物功能膜结构[J].功能高分子学报,2001,14(4):499-503
[126] 孙启龙,王朝阳,童 真.纳米自组装聚电解质超薄多层膜[J].功能高分子学报,2000,13:332-336
[127] 朱以华,杨晓玲,李培勇,胡英.从层层组装的核壳粒子到医学/生物化学诊断和药物输送[J].化学进展,2003,15(6):512-517
[128] Yipeng Sun, Junqi Sun, Xi Zhang, Changqing Sun, Yue Wang, Jiacong Shen. Chemically modified electrode via layer-by-layer deposition of glucose oxidase (GOD) and polycation-bearing Os complex[J]. Thin Solid Films, 1998, 327-329:??730-733
[129] 竺亚斌,高长有,刘云肖,龚逸鸿,沈家骢。聚乳酸的层层自组装修饰及其内皮细胞相容性研究[J].高等学校化学学报,2004,25(7):1347-1350
[130] 何成毅,梁振鹏,王朝阳,刘新星,童真。PS胶体粒子表面逐层自组装固定化SOD及其生物活性[J].高等学校化学学报,2005,26(1):88-92
[131] Sukhorulov G. B., Donath E., Lichtenfeld H. et al. Layer-by-layer self-assembly of polyelectrolytes on colloidal patericles[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 1998, 137:253-266
[132] Frank Caruso, Rachel A. Caruso, Helmuth M6hwald. Nanoengineering of Inorganic and Hybrid Hollow Spheres by Colloidal Templating[J]. Science, 1998, 282:1111-1114
[133] 梁振鹏,王朝阳,孙启龙,童真.LbL层层纳米自组装法制备新型微胶囊[J].化学进展,2004,16(4):485-491
[134] Lvov, Y., Caruso, F. Biocolloids with Ordered Urease Multilayer Shells as Enzymatic Reactors[J]. Anal. Chem., 2001, 73:4212-4217
[135] Yuri Lvov, Gero Decher, and Helmuth Mohwald. Assembly, Structural Characterization, and Thermal Behavior of Layer-by-Layer Deposited Ultrathin Films of Poly(vinyI sulfate) and Poly(allylamine)[J]. Langrnuir, 1993, 9: 481-486
[136] Wei Chen, Thomas J. McCarthy. Layer-by-Layer Deposition: A Tool for Polymer Surface Modification[J]. Macromolecules, 1997, 30:78-86
[137] 曹惠,戴礼兴,左葆齐.丝蛋白在生物医学领域中应用的研究进展[J].丝绸,2005,(6):48-51
[138] Iqbal Gill, Antonio Ballesteros. Encapsulation of Biologicals within Silicate, Siloxane, and Hybrid Sol-Gel Polymers: An Efficient and Genetic Approach[J]. J. Am. Chem. Soc., 1998, 120(34): 8587-8598
[139] 许松伟,姜忠义,吴洪,黄淑芳.溶胶-凝胶生物包囊化物的制备与特性[J].化学进展,2004,16(3):443-449
[140] 李军,伊敏,刘宁,哈鸿飞.PET纤维上SuMA的紫外光接枝及对蛋白质的固定化[J].北京大学学报(自然科学版),1998,34(6):746-751
[141] Li Jun, Yi Min, Ha Hongfei. Applicat ion of Sepharose and Sephadex Modified by Means of Radiation Grafting in Separation of Biomolecules[J]. Radiat. Phys.??Chem., 1995, 46(4-6) : 847-850
[142] Margel S, Beitler U, Ofarim M. Polyacrolein Microsphere as a New Tool in Cell Biology[J]. J. Cell Sci., 1982, 56:157-175
[143] Tarcha P J, Misun D, Finley D, et al. Polymer Latexes: Preparation, Characterization and Applications[J]. ACS Sump. Ser., 1992, 492:347-352
[144] 刘康栋,赵建龙.蛋白质芯片技术进展[J].中国生物工程杂志,2004,24(12):48-52
[145] MacBeath G. Schreiber S L. Printing proteins as microarrays for high-throughput function determination[J]. Science, 2000, 289:1760-1763
[146] Ziauddin M, Sabatini D M. Microarrays of cell expressing defined cDNAs[J]. Nature, 2001, 411:107-110
[147] Tempgn M F, Stoll D, Schrenk M, et al.Protein microarray technology[J]. Trends Biotechnol., 2002, 20:160-166
[148] 居乃琥.酶工程研究和酶工程产业的新进展(Ⅰ)——国际酶工程研究领域的若干“热点”和前沿课题[J].食品与发酵工业,2000,26(3):54-62
[149] 居乃琥.生物技术研究和开发的进展与展望[J].中国生物工程杂志,1987,(4):17-29
[150] 居乃琥.生物技术研究和开发的进展与展望(续)[J].中国生物工程杂志,1987(5):1-17
[151] 居乃琥.21世纪酶工程研究的新动向[J].工业微生物,2001,31(1):37-45
[152] 关燕清,徐和德,郭宝江.光固定化藻蓝蛋白对体外肝癌细胞7402的抑制作用[J].离子交换与吸附,2000,16(6):547-552
[153] Takashi Sugawara, Takehisa Matsuda. Novel Surface Graft Copolymerization Method with Micron-Order Regional Precision[J]. Macromolecules, 1994, 27(26): 7809-7814
[154] Takashi Sugawara, Takehisa Matsuda. Development of a Novel Protein Fixation Method with Micron-Order Precision[J]. Langmuir, 1995, 11 (6): 2267-2271
[155] 陈慧,吴朝阳,王桦,沈国励,俞汝勤.一种基于巯基化聚丙烯胺自组装膜的免疫传感器固定方法[J].分析化学,2003,31(8):897-900
[156] 钟春英,彭蓉,彭建新,洪华珠.蛋白质芯片技术[J].生物技术通报.2004,(2):34-37
[157] Walter G. Bussow K, Cahil D, et al. Protein arrays for gene expression and??molecular interaction screeing[J]. Cutr Opin Microbiol, 2000, 3(3): 298-302
[158] MacBeath G, Schreiber SL. Printing proteins as microarrays for high throughput function determination[J]. Science, 2000, 289(5485): 1760-1763
[159] 顾健腾,陶国才.蛋白质芯片与全身麻醉机制[J].《国外医学》麻醉学与复苏分册,2005,26(4):203-205
[160] Heng Zhu, Metin Bilgin, Rhonda Bangham, David Hall, Antonio Casamayor, Paul Bertone, Ning Lan, Ronald Jansen, Scott Bidlingmaier, Thomas Houfek, Tom Mitchell, Perry Miller, Ralph A. Dean, Mark Gerstein, Michael Snyder. Global Analysis of Protein Activities Using Proteome Chips[J]. Science, 2001, 293: 2101-2105
[161] 石羽杰,王玮,霍克克.蛋白质芯片技术的新进展[J].科技导报,2005,23(9):59-62
[162] Niroshan Ramachandran, Eugenie Hainsworth, Bhupinder Bhullar, Samuel Eisenstein, Benjamin Rosen, Albert Y. Lau, Johannes C. Walter, Joshua LaBaer. Self-Assembling Protein Microarrays[J]. Science, 2004, 305:86-90
[163] 彭聪,李桂源。蛋白质组与蛋白质芯片[J].国外医学.生理、病理科学与临床分册,2003,23(3):320-322
[164] 郑美凤.顺丁烯二酸、反丁烯二酸及顺酸,化工百科全书[M],北京:化学工业出版社,1990。第15卷,pp 181-202
[165] 鲁彦玲,董奕,陈明鸣,许文.顺丁烯二酸酐的合成及其下游产品开发[J].化学工业与工程,2001,18:52-56
[166] 邢长民.马来酸酐电荷转移络合物体系表面接枝聚合研究及“自分散”聚合制备高分子微球[D].北京:北京化工大学,2005
[167] Trivedi B C, Culberteson B M. Maleic anhydride[M]. New York: Plenum Press, 1982.
[168] Lang J L, Pavelich W A, Clarey H C. The homopolymerization of maleic anhydride[J]. J. Polym. Sci., 1961, 55:531-532
[169] Lang J L, Pavelich W A, Clarey H C. Homopolymerization ofmaleic anhydride. Ⅰ. Preparation of the polymer[J]. J. Polym. Sci. A-I, 1963, 1:1123-1136
[170] Nagahiro I, Nishihara K, Sakota N. Photoinduced polymerization of maleic anhydride in dioxane[J]. J. Polym. Sci. Polym. Chem. Ed., 1974, 12:785-792
[171] Gaylord N G, Maiti S. Participation of excited species in radical catalyzed??homopolymerization of maleic anhydride[J]. J. Polym. Sci. Polym. Lett. Ed., 1973, 11:253-256
[172] Odian G.Principles of polymerization[M]. 2nd edition. New York: John Wiley and Sons, 1981.
[173] Cowie J M G. Alternating copolymers[M]. 1st edition, New York: Plenum Press, 1985.
[174] 应圣康,余丰年.共聚合原理[M].第1版.北京:化学工业出版社,1984。
[175] Ratzsch M. The role of charge transfer monomer complexes in radical copolymerization[J]. Makromol. Chem., 1984, 185:2411-2420
[176] Hill D J T, O'Donnell J H, O'Sullivan P W, Pomery P J, Whittaker A K. An ESR study of the UV photolysis of styrene and maleic anhydride at 90 K[J]. J. Macromol. Sci.-Chem., 1985, A22:403-414
[177] Barton J, Capek I. Copolyerization of styrene with maleic anhydride photoinitiated by the excited charge-transfer-complex styrene-maleic anhydride[J]. Makromol. Chem., 1980, 181: 241-253
[178] Deb P C, Meyerhoff G. Study on kinetics of copolymerization of styrene and maleic anhydride in dioxane[J]. Eur. Polym. J., 1984, 20:713-719
[179] Caze C, Louchex C. Charge transfer complexes. Competition between donor and solvent for the acceptor. A new method of study. I. Case ofmaleic anhydride and vinyl comonomers: styrene and vinyl acetate[J]. J. Macromol. Sci.-Chem., 1973, A7:991-1005
[180] Vukovic R, Kuresevic V, Fles D. Alternating copolymerization of β-methyl-styrene and maleic anhydride[J]. J. Polym. Sci., 1987, A25:327-335
[181] Amaud R, Caze C, Fossey J. Studies of radical alternating copolymerization. Ⅰ. Quantitative determination of the relative reactivities between free comonomers and a complex between them. A. Theoretical treatment in terms of frontier molecular orbital interactions, application to radical maleic anhydride-vinyl acetate alternating copolymerization[J]. J. Macromol. Sci.-Chem., 1980, A14: 1269-1284
[182] Ghesqulere D, Amaud R, Caze C. Conformational and nuclear magnetic resonance studies of the charge transfer complex between vinyl acetate and maleic anhydride. Reactivity of this complex in radical alternating copolymerization[J]. J. Phys. Chem., 1979, 83:2029-2034[183] Caze C, Louchex C. Mechanism of alternating copolymerization of vinyl acetate and maleic anhydride[J]. J. Macromol. Sci.-Chem., 1975, A9:29-43
[184] Caze C, Louchex C. Studies of radical alternating copolymerization. Ⅱ. Influence of charge transfer complex between comonomers on the microstructure of the copolymers. Case of maleic anhydride and vinyl acetate[J]. J. Macromol. Sci.-Chem., 1981, AI5:95-105
[185] Seymoud R B, Garner D P, Sanders L J. Alternating and random copolymers of vinyl acetate and maleic anhydride[J]. J. Macromol. Sci.-Chem., 1979, A13: 173-181
[186] Vukovic R, Kuresevic V, Fles D. Copolymerization of 2-phenylvinyl alkyl ethers and maleic anhydride[J]. J. Polym. Sci. Polym. Chem. Ed., 1977, 15:2981-2985
[187] Kuresevic V, Vukovic R, Fles D. Copolymerization of 2-phenylvinyl alkyl thioethers and maleic anhydride[J]. J. Polym. Sci. Polym. Chem. Ed., 1979, 17: 1839-1841
[188] Fles D, Vukovic R, Kuresevic V, Radicevic R. The influence of steric factors on the mechanism of copolymerization of phenylvinyl alkyl ethers and maleic anhydride[J]. J. Polym. Sci., 1981, A19:35-43
[189] George G, Konstantinov C, Kabaivanov V. Role of the charge transfer complex during the copolymerization of N-vinylpyrrolidone and maleic anhydride[J]. Macromolecules, 1992, 25:6302-6308
[190] GokseI C, Hacioglu B, Akbulut U. Spontaneous copolymerization of maleic anhydride and N-vinylimidazole in 1,4-dioxane. I. Charge transfer complexation and kinetics of the copolymerization[J]. J. Polym. Sci., 1997, A35:3735-3743
[191] Boudevska H, Platchkova S. The influence of molecular interaction on polymerization. 5. Copolymerization of benzyl methacrylate with maleic anhydride[J]. Makromol. Chem., 1981, 182: 1119-1125
[192] Rzaev Z M O, Akovali G, Salamova U. Effect of complex formation and cyclization in radical copolymerisation of allyl methacrylates with maleic anhydride[J]. J. Polym. Sci. Polym. Chem., 1998, 36:1501-1508
[193] Jones J A, Ottenbrite R M. Preparation and structural characterization of poly(4-vinylphenylacetate-co-maleic anhydride)[J]. J. Polym. Sci., 1986, A24: 1487- 1495
[194] Gaylord N G, Maiti S, Dixit S S. Donor-acceptor complex in copolymerization.??ⅩⅩⅪⅩ. alternating diene-dienophile copolymers. 6. Photosensitized copolymerization of conjugated dienes and maleic anhydride[J]. J. Macromol. Sci.-Chem., 1972, A6:1521-1532
[195] Chang Y, McCormick C L. Water-soluble copolymers. 47. Copolymerization of maleic anhydride and N-vinyl formamide[J]. Macromolecules, 1993, 26: 4814-4817
[196] Butler GB, Badgett JT, Sharabashi M. Characterization of the charge transfer complex from furan and maleic anhydride and the alternating copolymer[J]. J. Macromol. Sci.-Chem., 1970, A4:51-63
[197] Torres A, Castano F, Alvarino JM. The charge transfer complex maleic anhydride-tetrahydrofuran and its role as photosensitizer in the polymerization of methyl methacrylate[J]. Makromol. Chem., 1978, 179:2653-2661
[198] FOster R. Organic charge-transfer complex[M]. London: Academic Press, 1969.
[199] Mulliken RS. Molecular compounds and their spectra. Ⅱ[J]. J. Am. Chem. Soc., 1952, 74:811-824
[200] 周维书.有机药物配伍变化的化学键理论基础[M]。北京:科学出版社,1982。p149
[201] 宋化灿,英伯宁,苏镜娱.电荷转移络合物理论在有机化学中的应用[J].化学通报,1997,9:35-38
[202] 英伯宁,宋化灿,苏镜娱.电荷转移络合物理论在生物医学方面的应用[J].化学通报,1996,7:20-23
[203] 赵凤林,周彪,徐变珍.电荷转移络合物形成机制及其若干应用[J].大学化学,1998,13,28-31
[204] 庄会荣.电荷转移络合物及其在药物定量分析中的应用[J].临沂师范学院学报,2002,24(6):30-33
[205] 冯喜兰,黄建华,杨小雨.电荷转移络合物形成机制及其在生物医药方面的应用[J].河南职业技术师范学院学报,2004,32:56-58
[206] 林青松.前程似锦的电荷转移络合物[J]。自然杂志,1997,20(3):160-162
[207] 杨文军,杨清传,吕海港,陈慧英,侯士敏,薛增泉,马立平,庞世瑾.有机电荷转移体系用于超高密度信息存储研究[J].材料研究学报,1999,13:576-580
[208] Bartlett P D, Nozaki K. The polymerization of allyl compounds. Ⅲ. The??peroxide-induced copolymerization of allyl acetate with maleic anhydride[J]. J. Am. Chem. Soc., 1946, 68:1495-1504
[209] Shirota Y, Mikawa H. Thermally and photochemically induced charge-transfer polymerizations[J]. J Macromol Sci-Rev Macromol Chem, 1977-1978, C16: 129-196
[210] Hill D J T, O'Donnell J, O'Sullivam P W. The role ofdonor-acceptor complexes in polymerization[J]. Prog. Polym. Sci., 1982, 8:215-276
[211] 董宇平,封麟先,杨士林,沈家骢.苯乙烯—马来酸酐自由基共聚反应(Ⅰ)苯乙烯—马来酸酐电荷转移络合反应[J].高分子通报,1998,(2):46-50
[212] 董宇平,封麟先,杨士林,沈家骢.苯乙烯—马来酸酐自由基共聚反应(Ⅱ)苯乙烯—马来酸酐聚合反应机理[J].高分子通报,1998,(3):51-58
[213] 单国荣,翁志学,黄志明,潘祖仁。交替共聚中的自由单体—络合理论[J].高分子通报,1996,(3):184-188[1] Lee K.-W, McCarthy, T. J. Surface-Selective Hydroxylation of Polypropylene[J]. Macromolecules, 1988, 21: 309-313
[2] Bamford, C. H.; AI-Lamee, K. (2 Polymer surface functionalisation and grafting by a simple and inexpensive method[J]. Macromol. Rapid Commun., 1994, 15: 379-384
[3] Price, G.J.; Keen, F.; Clifton, A. A. Sonochemically-Assisted Modification of Polyethylene Surfaces[J]. Macromolecules, 1996, 29(17): 5664-5670
[4] Kubota, Hitoshi; Hariya, Yayoi; Kuroda, Shin-ichi; Kondo, Takashi. Effect of photoirradiation on potassium persulfate-surface oxidation of low-density polyethylene film[J]. Polym. Degrad. Stab., 2001, 72:223-227
[5] Bergbreiter, David E. Polyethylene surface chemistry[J]. Prog. Polym. Sci., 1994, 19:529-560
[6] Dias Anthony J, McCarthy Thomas J. Synthesis of a two-dimensional array of organic functional groups: surface-selective modification of poly(vinylidene fluoride) [J]. Macromolecules, 1984, 17(12): 2529-2531
[7] Garbassi F, Morra M, Occhiello E, editors. Polymer surface: from physics to technology[M]. New York: Wiley; 1998. Chapter 7, revised and updated edition
[8] Ozdemir M, Sadikoglu H. A new and emerging technology: laser-induced surface modification of polymers[J]. Trends Food Sci. Technol., 1998, 9:159-167
[9] C.E.M. Morris. Adhesive bonding of polyethylene[J]. J. Appl. Polym. Sci., 1970, 14:2171-2181
[10] D.A. House. Kinetics and mechanism of oxidations by peroxydisulfate[J]. Chem. Rev., 1962, 62(3): 185-203
[11] W.K. Wilmarth, A. Haim, J. O. Edwards (Ed.). Peroxide Reaction Mechanism[M]. Interscience: New York, 1962, pp 175
[12] C.H. Bamford, K. G. AI-Lamee. Studies in polymer surface functionalization and grafting for biomedical and other applications[J].Polymer, 1994, 35(13):??2844-2852
[13] Peng Yang, Jian Yuan Deng, Wan Tai Yang. Confined photo-catalytic oxidation: a fast surface hydrophilic modification method for polymefic materials[J]. Polymer, 2003,44:7157-7164
[14] 邓建平,杨万泰.表面光接枝技术及其在分离膜中的应用[J].膜科学与技术,1999,19(3):13-18
[15] 邢长民.马来酸酐电荷转移络合物体系表面接枝聚合研究及“自分散”聚合制备高分子微球[D].北京:北京化工大学,2005
[16] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Photograft Polymerization of Binary Monomers Maleic Anhydride and n-Butyl Vinyl Ether on Polypropylene Film. 1. Effects of Principal Factors[J]. Polymer Journal, 2002, 34(11): 801-808
[17] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Photograft Polymerization of Binary Monomers Maleic Anhydride and n-Butyl Vinyl Ether on Polypropylene Film. 2. Some Mechanistical Aspects[J]. Polymer Journal, 2002, 34(11): 809-816
[18] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Graft Polymerization of Binary Monomers Maleic Anhydride/n-Butyl Vinyl Ether on the Polypropylene Film via Two-step Method[J]. Polymer Journal, 2002, 35(8): 613-621
[19] Deng Jianping, Yang Wantai. Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex.Ⅷ. Charge-Transfer Complex (4)[J]. Journal of Applied Polymer Science, 2006, 99: 2710-2720
[20] Deng Jianping, Yang Wantai.Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅸ. Charge-Transfer Complex (5)[J]. Journal of Applied Polymer Science, 2005, 97, 2230-2237
[21] Deng Jianping, Yang Wantai.Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅵ.??Charge-Transfer Complex (2)[J]. Journal of Applied Polymer Science, 2005, 95, 910-915
[22] Deng Jianping, Yang Wantai. Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅴ. Charge-Transfer Complex (1)[J]. Journal of Applied Polymer Science, 2005, 95, 903-909
[23] Deng Jianping, Yang Wantai. Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅳ. Maleie Anhydride[J]. Journal of Applied Polymer Science, 2003, 87, 2318-2325
[24] Wantai Yang, Bengt Ranby. Bulk Surface Photografting Process and Its Applications. Ⅱ. Principal Factors Affecting Surface Photografting[J]. Journal of' Applied Polymer Science, 1996, 62, 545-555
[25] Wantai Yang, Bengt Ranby. Bulk Surface Photografting Process and Its Applications. Ⅰ. Reactions and Kinetics[J]. Journal of Applied Polymer Science, 1996, 62, 533-543
[26] Jian-Ping Deng, Wantai Yang, Bengt Ranby. Surface Photografting Polymerization of Vinyl Acetate (VAc), Maleic Anhydride (MAH), and Their Charge Transfer Complex (CTC). Ⅲ. VAc(3)[J]. Journal of Applied Polymer Science, 2001, 80, 1426-1433
[27] Jian-Ping Deng, Wantai Yang, Bengt Ranby. Surface Photografting Polymerization of Vinyl Acetate(VAc), Maleic Anhydride, and Their Charge Transfer Complex. Ⅱ. VAc(2)[J]. Journal of Applied Polymer Science, 2000, 77, 1522-1531
[28] Jian-Ping Deng, Wantai Yang, Bengt Ranby. Surface Photografting Polymerization of Vinyl Acetate(VAc), Maleic Anhydride, and Their Charge Transfer Complex. Ⅰ. VAc(1)[J]. Journal of Applied Polymer Science, 2000, 77, 1513-1521
[29] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Functionalization of Polypropylene Film via UV-Induced Photografting of N-Vinylpyrrolidone/Maleic Anhydride Binary Monomers[J]. Macromol. Chem. Phys. 2005, 206, 1106-1113
[30] Yang. W. T., B. Ranby. Bulk surface photografting process and its applications. Ⅰ.??Reactions and kinetics[J]. J. Appl. Polym. Sci., 1996, 62:533-543
[31] Yang. W. T., B. Ranby. Bulk surface photografting process and its applications. Ⅱ. Principal factors affecting surface photografting[J]. J. Appl. Polym. Sci., 1996, 62: 545-555
[32] 邢其毅,徐瑞秋,周政。基础有机化学[M].北京:高等教育出版社,1980,p203
[33] 姚新生。有机化合物波谱解析[M].北京:中国医药科技出版社,1997,p270
[34] 冯金城.有机化合物结构分析与鉴定[M].北京:国防工业出版社,2003,p28
[35] Hoffman, A. S. Surface modification of polymers: physical, chemical, mechanical and biological methods[J]. Macromol. Symp., 1996, 101:443-454
[36] Singh, R. P. Surface grafting onto polypropylene -- a survey of recent developments[J]. Prog. Polym. Sci., 1992, 17:251-281
[37] Hoffman, A. S. Biomedical applications of plasma gas discharge processes[J]. J. Appl. Polym. Sci., Appl. Polym. Symp., 1988, 42:251-267
[38] Gerenser. L. J., Elman. J. F., Mason. M. G, Pochan. J. M. E.s.c.a. studies of corona-discharge-treated polyethylene surfaces by use of gas-phase derivatization[J]. Polymer, 1985, 26:1162-1166
[39] Pochan, J. M., Gerenser, L. J., Elman, J. F. An E.s.e.a. study of the gas-phase derivatization of poly(ethylene terephthalate) treated by dry-air and dry-nitrogen corona discharge[J]. Polymer, 1986, 27:1058-1062
[40] Ashutosh Chilkoti, Buddy D. Ratner, David Briggs. Plasma-deposited polymeric films prepared from carbonyl-containing volatile precursors: XPS chemical derivatization and static SIMS surface characterization[J]. Chem. Mater., 1991, 3: 51-61
[41] Christopher Batich, Ali Yahiaoui. Surface modification. Ⅰ .graft polymerization of acrylamide onto low-density polyethylene by Ce4+-induced initiation[J]. J. Polym. Sci. Part A: Polym. Chem., 1987, 25:3479-3488[1] Decher G, Hong J D. Buildup of ultrathin multilayer films by a self-assembly process: I. consecutive adsorption of anionic and cationic bipolar amphiphiles[J]. Makromol. Chem. Macromol. Symp., 1991,46: 321-327
[2] G. Decher, J. D. Hong. Buildup of ultrathin multilayer films by a self-assembly process: II. Consecutive adsorption of anionic and cationic bipolar amphiphiles and polyelectrolytes on charged surfaces[J]. Ber. Bunsen-Ges. Phys. Chem., 1991, 95:1430-1434
[3] Gero Decher. Fuzzy Nanoassemblies: Toward Layered Polymeric Multicomposites[J]. Science, 1997, 277: 1232-1237
[4] Nicholas A. Kotov, Imre Dekany, Janos H. Fendler. Layer-by-layer self-assembly of polyelectrolyte-semiconductor nanoparticle composite films[J]. J. Phys. Chem., 1995,99(35): 13065-13069
[5] Guangzhao Mao, Yi-hua Tsao, Matthew Tirrell, H. Ted Davis, Volker Hessel, Helmut Ringsdorf. Interactions, structure, and stability of photoreactive bolaform amphiphile multilayers[J]. Langmuir, 1995,11(3): 942-952
[6] Jinyu Chen, Lan Huang, Liming Ying, Guobin Luo, Xinsheng Zhao, and Weixiao Cao. Self-assembly ultrathin films based on diazoresins[J]. Langmuir, 1999, 15: 7208-7212
[7] Betrand P, Jonas A, Laschewsky A, et al. Ultrathin polymer coatings by complexation of polyelectrolytes at interfaces: suitable materials, structure and properties[J]. Macromol. Rapid Commun., 2000,21(7): 319-348
[8] Wang Liyan, Wang Zhiqiang, Zhang Xi, et al. A new approach for the fabrication of an alternating multilayer film of poly(4-vinylpyridine) and poly( acrylic acid) based on hydrogen bonding[J]. Macroml. Rapid Commun., 1997,18(6): 509-514
[9] Stockton W B, Rubner M F. Molecular-level processing of conjugated Polymers. 4. layer-by-layer manipulation of polyaniline via hydrogen-bonding interactions[J]. Macromolecules, 1997, 30(9): 2717-2725[10] Feldheim D L, Grabar K C, Natan M J, et al. Electron transfer in self-assembled inorganic polyelectrolyte/metal nanoparticle heterostructures[J]. J. Am. Chem. Soc, 1996,118(32): 7640-7641
[11] Ariga K, Lvov Y, Kunitake T. Assembling alternate dye-polyion molecular films by electrostatic layer-by-layer adsorption[J]. J. Am. Chem. Soc, 1997, 119(9): 2224-2231
[12] Cooper T M, Campbell A L, Crane R L. Formation of polypeptide-dye multilayers by electrostatic self-assembly technique[J]. Langmuir, 1995,11(7): 2713-2718
[13] Kleinfeld E R, Ferguson G S. Stepwise formation of multilayered nanostructural films from macromolecular precursors[J]. Science, 1994, 265: 370-373
[14] Lvov Y, Ariga K, Ichinose I, et al. Assembly of multicomponent protein films by means of electrostatic layer-by-layer adsorption[J]. J. Am. Chem. Soc, 1995, 117(22): 6117-6123
[15] Levasalmi J -M, McCarthy T J. Poly(4-methyl-1-pentene)-Supported Polyelectrolyte Multilayer Films: Preparation and Gas Permeability[J]. Macramolecules, 1997, 30(6): 1752-1757
[16] Stroeve P, Vasquez V, Coelho MAN, et al. Gas transfer in supported films made by molecular self-assembly of ionic polymers[J]. Thin Solid Films, 1996, 284-285: 708-712
[17] Klitzing R V, Mohwald H. Transport through ultrathin polyelectrolyte films[J]. Thin Solid Films, 1996,284-285: 352-356
[18] Cheung J H, Fou A F, Rubner M F. Molecular self-assemble of conducting polymers[J]. Thin Solid Films, 1994, 244: 985-989
[19] Ferreira M, Rubner M F. Molecular-level processing of conjugated polymers. 1. layer-by-layer manipulation of conjugated polyions[J]. Macromolecules, 1995, 28(21): 7107-7114
[20] Decher G, Lehr B, Lowack K, et al. New nanocompoite films for biosensors: layer-by-layer adsorbed films of polyelectrolyte, proteins or DNA[J]. Biosensors and Bioelectronics, 1994, 9: 677-684[21] Chen W, McCarthy T J. Layer-by-layer deposition: a tool for polymer surface modificationp[J]. Macromolecules, 1997, 30(1): 78-86
[22] Hsieh M C, Farris R J, McCarthy T J. Surface "priming" for layer-by-layer deposition: polyelectrolyte multilayer formation on allylamine plasma-modified poly(tetrafluoroethylene)[J]. Macromolecules, 1997, 30(26): 8453-8458
[23] Laschewsky A, Mayer B, Wischerhoff E, et al. A new route to thin polymeric, non-centrosymmetric coatings [J]. Thin Solid Films, 1996,284-285: 334-337
[24] Dong-Chan Lee, Bong-Jun Chang, Gustavo M. Morales, Young Ah Jang, Man-Kit Ng, Stephen T. Heller, Luping Yu. Functional polymers for layer-by-layer construction of multilayers via chemoselective immobilization[J]. Macromolecules, 2004,37: 1849-1856
[25] Chan, E. W.; Lee, D.-C; Ng, M.-K.; Wu, G.; Lee, K. Y. C; Yu, L. A novel layer-by-layer approach to immobilization of polymers and nanoclusters[J]. J. Am. Chem. Soc. 2002, 124: 12238-12243
[26] Eugene W. L. Chan and Luping Yu. Chemoselective immobilization of gold nanoparticles onto self-assembled monolayers[J]. Langmuir, 2002,18: 311-313
[27] Zhaohui Yang, Jinyu Chen, Weixiao Cao. Self-assembled ultra-thin films fabricated from diazoresin and phenol-formaldehyde resin via H-bonding interaction[J]. Polymer International, 2004, 53: 815-819
[28] Lan Huang, Guobin Luo, Xinsheng Zhao, Jinyu Chen, Weixiao Cao. Self-assembled multilayer films based on diazoresins studied by atomic force microscopy/friction force microscopy[J]. Journal of Applied Polymer Science, 2000,78:631-638
[29] Qi Li, Jianhua Ouyang, Jinyu Chen, Xinsheng Zhao, Weixiao Cao. Photosensitive, self-assembled ultrathin films based on diazoresin and phosphate-containing polyanions[J]. Journal of Polymer Science: Part A: Polymer Chemistry, 2002, 40: 222-228
[30] Hong Zhong, Jinfeng Wang, Xinru Jia, Ying Li, Yang Qin, Jinyu Chen, Xinsheng Zhao, Weixiao Cao, Mingqian Li, Yen Wei. Fabrication of covalently attached??ultrathin films based on dendrimers via H-bonding attraction and subsequent UV irradiation[JJ. Macromol. Rapid Commun., 2001,22: 583-586
[31] Jinyu Chen, Hao Luo, Boxuan Yang, Weixiao Cao. Photoimaging technique on printing Al plate via self-assembly multilayer films based on diazoresin[J]. Journal of Applied Polymer Science, 2001, 80: 1983-1987
[32] Zhaohui Yang, Weixiao Cao. Self-assemblies based on poly(4-diazonium styrene)[J]. Macromol. Chem. Phys., 2004,205: 241-246
[33] Tingbing Cao, Jinyu Chen, Chaohui Yang, Weixiao Cao. Fabrication of a stable layer-by-layer thin film based on diazoresin and phenolic hydroxy-containing polymers via H-bonding[J]. Macromol. Rapid Commun. 2001,22: 181-184
[34] Yang Zhaohui, Cao Weixiao. Covalently attached self-assembly of ultrathin films from hydroxy-containing porphyrin and diazoresin[J]. Journal of Polymer Science: Part A: Polymer Chemistry, 2003,41: 3103-3108
[35] Yongjun Zhang, Weixiao Cao. Stable self-assembled multilayer films of diazo resin and poly(maleic anhydride-co-styrene) based on charge-transfer interaction[J]. Langmuir, 2001,17: 5021-5024
[36] Tingbing Cao, Liuhe Wei, Shuming Yang, Maofeng Zhang, Chunhui Huang, Weixiao Cao. Self-Assembly and Photovoltaic Property of Covalent-Attached Multilayer Film Based on Highly Sulfonated Polyaniline and Diazoresin[J]. Langmuir, 2002,18: 750-753
[37] Jingfeng Wang, Xinru Jia, Hong Zhong, Yufei Luo, Xinsheng Zhao, Weixiao Cao, and Mingqian Li. Self-Assembled Multilayer Films Based on Dendrimers with Covalent Interlayer Linkage[J]. Chem. Mater., 2002, 14: 2854-2858
[38] Tingbing Cao, Shuming Yang, Jie Cao, Maofeng Zhang, Chunhui Huang, Weixiao Cao. Nanoassembly Film of Carboxylic Polyaniline with Photosensitive Diazoresin and Its Photoelectric Conversion Properties[J]. J. Phys. Chem., B, 2001, 105: 11941-11944
[39] Jinyu Chen, Lan Huang, Liming Ying, Guobin Luo, Xinsheng Zhao, Weixiao Cao. Self-Assembly Ultrathin Films Based on Diazoresins[J]. Langmuir, 1999, 15:??7208-7212
[40] Tingbing Cao, Fang Wei, Yanlian Yang, Lan Huang, Xinsheng Zhao, and Weixiao Cao. Microtribologic Properties of a Covalently Attached Nanostructured Self-Assembly Film Fabricated from Fullerene Carboxylic Acid and Diazoresin[J]. Langmuir, 2002, 18:5186-5189
[41] 曹廷炳,杨术明,张茂峰,黄春辉,曹维孝。含磺化聚苯胺和重氮树脂自组装 超薄膜的制备及其光电转换性能[J].高等学校化学学报,2002,23(6): 1213-1215
[42] 翁健,张拥军,罗传秋,曹维孝。聚氨基苯腈自组装膜及其光谱分析[J].光谱学与光谱分析,2001,21(2):190-192
[43] 王洋,张茂峰,李琪,曹维孝.聚乙烯醇缩甲酰苯基-乙烯基吡啶錙盐的自组装膜及图案化[J].高等学校化学学报,2004,25(10):1975-1977
[44] 曹维孝,丛海林.带羧基乳胶颗粒的制备、聚集以及与重氮树脂的自组装[J].精细化工,2002,19(9):518-520
[45] 杨朝晖,曹维孝.一种含有偶氮磺酸基与吡啶基的高分子氢键自组装及自组装超薄膜[J].高分子学报,2004,(5):776-779
[46] 杨朝晖,江玮,曹维孝.聚4-重氮基苯乙烯与聚苯乙烯磺酸钠的自组装[J].高分子学报,2003,(3):442-444
[47] 杨朝辉,曹廷炳,陈金玉,曹维孝.聚N-对羟苯基丙烯酰胺与重氮树脂的氢键自组装[J].高等学校化学学报,2002,23(2):342-344
[48] 曹维孝.光敏性聚电解质重氮树脂及其自组装[J].高分子通报,2002,(1):1-5
[49] 黄兰,顾倩颐,何元康,罗国宾,赵新生,曹维孝.含C60的聚电解质自组装膜微摩擦性能的研究[J].高等学校化学学报,2002,23(6):1193-1197
[50] 赵楠,鲁从华,曹维孝.重氮树脂基磁性超薄膜及其图形化[J].高分子学报,2004,(3):458-461
[51] 黄兰,黄飞,何元康,魏芳,赵新生,曹维孝.水溶性含C60聚电解质的制备及其与重氮树脂自组装膜AFMPFFM的初步研究[J].高分子学报,2002,(2):192-197
[52] Yongjun Zhang, Shuguang Yang, Ying Guan, Weixiao Cao, and Jian Xu.??Fabrication of Stable Hollow Capsules byCovalent Layer-by-Layer Self-Assembly[J]. Macromolecules, 2003, 36: 4238-4240
[53] Tingbing Cao, Shuming Yang, Yanlian Yang, Chunhui Huang, Weixiao Cao. Photoelectric Conversion Property of Covalent-Attached Multilayer Self-Assembled Films Fabricated from Diazoresin and Fullerol[J]. Langmuir, 2001, 17: 6034-6036
[54] Tingbing Cao, Fang Wei, Xiaoming Jiao, Jinyu Chen, Wei Liao, Xinsheng Zhao, Weixiao Cao. Micropatterns of Protein and Conducting Polymer Molecules Fabricated by Layer-by-Layer Self-Assembly and Photolithography Techniques[J]. Langmuir, 2003,19: 8127-8129
[55] Conghua Lu, Fang Wei, Nianzu Wu, Lan Huang, Xinsheng Zhao, Xiaoming Jiao, Chuanqiou Luo, Weixiao Cao. Au Nanoparticle Micropatterns Prepared from Self-Assembled Films[J]. Langmuir, 2004, 20: 974-977
[56] Jinyu Chen, Guobin Luo, Weixiao Cao. Fabrication of a Covalently Attached Multilayer Film via In-Situ Reaction[J]. Macromol. Rapid Commun., 2001, 22: 311-314
[57] Jinyu Chen, Hao Luo, Weixiao Cao. Interaction of diazoresins and sulfonate containing polyelectrolytes[J]. Polymer International, 2000,49: 382-386
[58] Yongjun Zhang, Weixiao Cao. Fabrication of an ESA Multilayer Film from a Diazo Resin by Direct Surface Charge Reversal[J]. Macromol. Rapid Commun., 2001,22:842-845
[59] Menard E, Lee K J, Khang D Y, et al. A printable form of silicon for high performance thin film transistors on plastic substrates [J]. Applied Physics Letters, 2004, 84(26): 5398-5400
[60] Yang. W. T., B. Ranby. Bulk surface photografting process and its applications. I. Reactions and kinetics[J]. J. Appl. Polym. Sci., 1996, 62: 533-543
[61] Yang. W. T., B. Ranby. Bulk surface photografting process and its applications. II. Principal factors affecting surface photografting[J]. J. Appl. Polym. Sci., 1996, 62: 545-555[62] 邢晓东,丁健,李杨,洪定一,徐爱丽,张欣.直纺型改性聚对苯二甲酰对苯二胺的研制[J]。合成树脂及塑料,1999,16(6):11-14
[63] 刘德山,谷文广,王晓工,王慧芬,王伟,周其庠。缩聚的溶剂体系对芳香—脂肪族共聚酰胺序列结构的影响[J].高分子学报,1995,(6):704-707
[64] Shiratori S S, Rubner M F. pH-dependent thickness behavior of sequentially adsorbed layers of weak polyelectrolytes[J]. Macromolecules, 2000, 33(11): 4213-4219
[65] Insung S. Choi and Robert Langer. Surface-Initiated Polymerization of L-Lactide: Coating of Solid Substrates with a Biodegradable Polymer[J]. Macromolecules, 2001, 34:5361-5363[1] 钟春英,彭蓉,彭建新,洪华珠.蛋白质芯片技术[J].生物技术通报,2004,(2):34-37
[2] Pavlickova P, Schneider E M, Hug H. Advances in recombinant antibody microarrays[J]. Clin Chim Acta, 2004, 343(1-2): 17-35
[3] Angenendt P, Glokler J, Mushy D, et al. Toward optimized antibody microarrays: a comparison of current microarray support materials[J]. Anal. Biochem., 2002, 309(2): 253-260
[4] 彭仁.用蛋白质芯片检测功能肽[J].食品科学,2005,26(8):545-546
[5] Thomas Kodadek. Protein microarrays: prospects and problems[J]. Chemistry and Biology, 2001, (8): 105-115
[6] Zammatteo N, Jeanmart L, Hamels S, et al. Comparison between different strategies of covalent atttachment of DNA to glass surfaces to build DNA microarrays[J]. Anal. Biochem., 2000, 280(1): 143-150
[7] 屈海云,王海涛,黄懿,陆豪杰,钟伟,孔继烈,等.有机玻璃微流控芯片表面的蛋白质固定化及应用研究[J].高等学校化学学报,2004,25,Suppl.59-60
[8] McCormick R. M., Nelson R. J., Alonso-Amigo M. G., Benvegnu D. J., Hooper H H. Microchannel Electrophoretic Separations of DNA in Injection-Molded Plastic Substrates[J]. Anal. Chem., 1997, 69(14): 2626-2630
[9] Henry A. C., Tutt T. J., Galloway M., Davidson Y. Y., McWhorter C. S., Soper S. A., McCarley R. L. Surface Modification of Poly(methyl methacrylate) Used in the Fabrication of Microanalytical Devices[J]. Anal. Chem., 2000, 72(21): 5331-5337
[10] 刘康栋,赵建龙。蛋白质芯片技术进展[J].中国生物工程杂志,2004,24(12):48-52
[11] MacBeath G, Schreiber S L. Printing proteins as microarrays for high-throughput function determination[J]. Science, 2000, 289:1760-1763
[12] Ziauddin M, Sabatini D M. Microarrays of cell expressing defined cDNAs[J]. Nature, 2001, 411:107-110
[13] Tempgn M F, Stoll D, Schrenk M, et al. Protein microarray technology[J]. Trends??Biotechnol., 2002, 20: 160-166
[14] Richard F. Taylor. Protein Immobilization Fundamentals and Applications[M]. New York: Marcel Dekker Inc. 1991,101-105
[15] Hiroshi Muramatsu, Jonathan M. Dicks, Eiichi Tamiya, Isao Karube. Piezoelectric crystal biosensor modified with protein A for determination of immunoglobulins[J]. Anal. Chem., 1987, 59(23): 2760-2763
[16] Peng Yang, Xuexia Zhang, Biao Yang, Hongchi Zhao, Jingchun Chen, and Wantai Yang. Facile Preparation of a Patterned, Aminated Polymer Surface by UV-Light-Induced Surface Aminolysis[J]. Advanced Functional Materials. 2005, 15(9): 1415-1425
[17] Paolo Facci, Dario Alliata, Laura Andolfi, Bernhard Schnyder, Rudiger Kotz. Formation and characterization of protein monolayers on oxygen-exposing surfaces by multiple-step self-chemisorption[J]. Surface Science, 2002, 504: 282-292
[18] Shiratori S S, Rubner M F. pH-dependent thickness behavior of sequentially adsorbed layers of weak polyelectrolytes[J]. Macromolecules, 2000, 33(11): 4213-4219[1] 潘祖仁.高分子化学[M].第二版.北京:化学工业出版社,1997.94
[2] 邓建平.醋酸乙烯酯(VAc)、马来酸酐(MAn)及VAc/MAn体系非均相接枝聚合反应的研究[D].北京:北京化工大学,2001
[3] John L. Lang, W. A. Pavelich, H. D. Clarey, Homopolymerization of Maleic Anhydride. I. Preparation of the Polymer[J]. Journal of Polymer Science: Part A, 1963, 1:1123-1136
[4] Ural Akbulut, Bilge Hacioglu. Electroinitiated Polymerization of Maleic Anhydride by Direct Electron Transfer[J]. Journal of Polymer Science: Part A. Polymer Chemistry, 1991, 29:219-224
[5] Nirmal K. Pattanayak, Bimbadhar Nayak. Electroinitiated polymerization of Maleic Anhydride[J]. Makromol. Chem., 1986, 187(6): 1337-1344
[6] Gaylord N G, Maiti S, Dixit S S. Donor-acceptor complex in copolymerization ⅩⅩⅩLⅩ. alternalting diene-dienophile copolymers. 6. Photosensitized copolymerization of conjugated dienes and MAH[J]. J. Macromol. Sci-Chem., 1972, A6(8): 1521-1532
[7] R. Vukovic, V. Kuresevic, D. Fles. Copolymerization of α-Phenylvinyl Alkyl Ethers and Maleic Anhydride[J]. Journal of Polymer Science: Polymer Chemistry Edition, 1977, 15:2981-2985
[8] Gaylord N G. Maiti S, Patnaik B K, Takahashi A. Donor-acceptor complexes in copolymerization ⅩⅩⅩⅥ. Altemalting diene-dienophile copolymers. 4. copolymerization of furan and 2-methylfuran with maleic anhydride[J]. J. Macromol. Sci-Chem., 1972, A6:1459-1480
[9] Butler G B, Badgett J T, Sharabashi M. Characterization of the CTC from furan and MAH and the alternalting copolymer[J]. J Macromol Sci-Chem, 1970, A4: 51-63
[10] Caze C, Loucheux C. Mechanism of the radical copolymerization of methyl methacrylate and MAH[J]. J Macromol Sci-Chem, 1978, A12(10): 1501-1512[11] Randy S. Frank, Jeffrey S. Downey, H. D. H. Stover. Synthesis of divinylbenzene-maleic anhydride microspheres using precipitation polymerization[J]. Journal of Polymer Science: Part A: Polymer Chemistry, 1998, 36:2223-2227
[12] Zakir M. O. RZAEV, Gi.ineri Akovali, Ulviye Salamova. Effects of Complex Formation and Cyclization in Radical Copolymerization of Allyl (metha)acrylates with Maleic Anhydride[J]. Journal of Polymer Science: Part A: Polymer Chemistry, 1998, 36:1501-1508
[13] Wen Zhou, Jianhua Dong, Kunyuan Qiu, Yen Wei. Preparation and Properties of Poly (styrene-co-maleic anhydride)/Silica Hybrid Materials by the in Situ Sol-Gel Process[J]. Journal of Polymer Science: Part A: Polymer Chemistry, 1998, 36: 1607-1613
[14] Cowie J M G. Altemalting Copolymers[M]. 1st edition. New York: Plenum Press, 1985.47
[15] Jian-Ping Deng, Wan-Tai Yang. Self-initiating performance ofmaleic anhydride on surface photografting polymerization[J]. Journal of Polymer Science Part A: Polymer Chemistry, 2001, 39(19): 3246-3249
[16] Deng Jian-Ping, Yang Wan-Tai, Ranby Bengt. Melt-photografting polymerization ofmaleic anhydride onto LDPE film[J]. Eur. Polym. J. 2002, 38:1449-1455
[17] Deng Jianping, Yang Wantai. Surface photografting polymerization of vinyl acetate, maleic anhydride, and their charge-transfer complex. Ⅳ. Maleic anhydride[J]. Journal of Applied Polymer Science, 2003, 87(14): 2318-2325
[18] Sarkar N., Bhattacharjee S., Sivaram S., Surface Functionalization of Poly(ethylene) with Succinic Anhydride: Preparation, Modification, and Characterization[J]. Langrnuir, 1997, 13(15): 4142-4149
[19] Evenson S. A., Fail C. A., Badyal J. P. S. Surface Esterification of Poly(Ethylene-alt-Maleic Anhydride) Copolymer[J]. J. Phys. Chem. B., 2000, 104(45): 10608-10611
[20] Pompe T., Zschoche S., Herold N., Salchert K., Gouzy M.-E, Sperling C., Werner??C. Maleic Anhydride Copolymers-A Versatile Platform for Molecular Biosurface Engineering[J]. Biomacromolecules, 2003, 4(4): 1072-1079
[21] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Functionalization of Polypropylene Film via UV-Induced Photografting of N-Vinylpyrrolidone/Maleic Anhydride Binary Monomers[J]. Macromolecular Chemistry and Physics. 2005, 206(11): 1106-1113
[22] 邢长民.马来酸酐电荷转移络合物体系表面接枝聚合研究及“自分散”聚合制备高分子微球[D].北京:北京化工大学,2005
[23] I. F.Volkova, M.Yu, G0rshkova, P.e. lvanov, L.L Stotskaya. New Scope for Synthesis of Divinyl Ether and Maleic Anhydride Copolymer with Narrow Molecular Mass Distribution[J]. Polym. Adv. Technol., 2002, 13:1067-1070
[24] Cowie J. M. G. Alternating copolymers[M]. 1st edition. New York: Plenum Press, 1985.
[25] 应圣康,余丰年。共聚合原理[M].北京:化学工业出版社,1984.
[2] Hoffman, A. S. Surface modification of polymers: physical, chemical, mechanical and biological methods[J]. Macromol. Symp., 1996, 101: 443-454
[3] 阎卫东,胡友良.聚烯烃功能化研究进展[J].高分子通报,1998,(2):51-55
[4] 金日光,华幼卿.高分子物理[M],北京:化学工业出版社,2000,P235
[5] 张增民.以聚丙烯为中心的改性技术[J].塑料科技,1997,(6):18-23
[6] 肖迎红,车剑飞,吉法祥.短切玻纤增强聚丙烯表面的化学处理及其表征[J].南京理工大学学报,1995,19(1):46.52
[7] Torstensson M, Ranby B. Hult A. Monomeric Surfactants for Surface Modification of Polymers[J]. Macromolecules, 1990, 23: 126-130
[8] Rao, M. H.,Rao,K. N. Radiation Induced Grafting of Mixed Monomers onto Polyester and Polypropylene Fibers[J]. J. Appl. Polym. Sci., 1987, 33:2707-2714
[9] Inaba, M., Ogumi, Z., Takehara, Z. Application of the Solid Polymer Electrolyte Method to Organic Electrochemistry. (XIV)[J]. J. Electrochem. Sot., 1993, 140: 19-22
[10] Memetea, T., Stannett, V. Radiation Grafting to PET Fibres[J]. Polymer, 1979, 20:465-468
[11] Shkolnik, S., Behar, D. Radiation-induced Grafting of Sulfonates on Polyethylene[J]. J. Appl. Polym. Sci., 1982, 27:2189-2196
[12] Haruvy, Y., Rajbenbach, L. A. Grafting of Acrylamide to Nylon-6 by the Electron-beam Preirradiation Technique. Ⅱ. Kinetic Aspects and Film Permeability[J]. J. Appl. Polym. Sci., 1982, 27:2711-2723
[13] Ishigaki, I., Sugo, T., Senoo, K. Graft Polymerization of Acrylic Acid onto Polythylene Film by Preirradiation Method. I. Effects of Preirradiation Dose, Monomer Concentration, Reaction Temperature, and Film Thickness[J]. J. Appl. Polym. Sci., 1982, 27:1033-1041
[14] Omichi, H., Okamoto, J. Synthesis of Ion-exchange Membranes by Radiation-induced Multiple Grafting of Methyl α, β, β-trifiuoroacrylate[J]. J.??Polym. Sci.: Polym. Chem. Ed., 1982, 20:521-528
[15] Bhattacharyya, S.N., Maldas, D. Radiation-induced Graft Copoymerization of Mixtures of Styrene and Acrylamide onto Cellulose Acetate. Ⅰ. Effect of Solvents[J]. J. Polym. Sci.: Polym. Chem. Ed., 1982, 20:939-950
[16] Kaji, K. Grafting of Polyacrylic Acid onto PE Filament and its Distribution[J]. J. Appl. Polym. Sci., 1983, 28:3767-3777
[17] Okamoto, J., Sugo, T., Katakai, A. Amidoxime-group-containing Adsorbents for Metal Ions Synthesized by Radiation-induced Grafting[J]. J. Appl. Polym. Sci., 1985, 30:2967-2977
[18] O'Neill, T. Grafting of Acrylic Acid onto Radiation-peroxidized Polypropylene Film in the Presence of Ferrous Ion[J]. J. Polym. Sci., 1972, A10:569-580
[19] Matsuzaki, K., Nakamura, S., Shindo, S. Radiation-induced Graft Copolymerization of Mixtures of Styrene and n-butyl Acrylate onto Cellulose and Cellulose Triacetate[J]. J. Appl. Polym. Sci., 1972, 16:1339-1355
[20] Oster, M. I., Rogers, C. E. Modification of Membrane Permselectivity by Graft Copolymerization[J]. J. Appl. Polym. Sci., 1974, 18:1359-1371
[21] Kale, P.D., Lokhande, H.T. Grafting on Polyester Fibers[J]. J. Appl. Polym. Sci., 1975, 19:461-480
[22] Harris, J.A., Arthur, J.C. Radiation-initiated Graft Copolymerization of Binary Monomer Mixtures Containing Acrylonitrile with Cotton Cellulose[J]. J. Appl. Polym. Sci., 1970, 14:3113-3128
[23] Ratner, B.D., Weathersby, P. K., Hoffman, A.S., Radiation-grafted Hydrogels for Biomaterial Applications as Studied by the ESCA Technique[J]. J. Appl. Polym. Sci., 1978, 22:643-664
[24] Ruthy Sfez, Liu De-Zhong, Iva Turyan, Daniel Mandler, Shlomo Yitzchaik. Polyaniline Monolayer Self-Assembled on Hydroxyl-Terminated Surfaces[J]. Langmuir, 2001, 17:2556-2559
[25] Richard D. Peters, Xiao M. Yang, Tae K. Kim, B. H. Sohn, Paul F. Nealey. Using Self-Assembled Monolayers Exposed to X-rays To Control the Wetting Behavior of Thin Films of Diblock Copolymers[J]. Langmuir, 2000, 16:4625-4631
[26] Michael D. K. Ingall, Charles H. Honeyman, Juanita V. Mercure, Patricia A. Bianconi, Roderick R. Kunz. Surface Functionalization and Imaging Using Monolayers and Surface-Grafted Polymer Layers[J]. J. Am. Chem. Soc. 1999,??121:3607-3613
[27] Zheyuan Huang, Pen-Cheng Wang, Alan G. MacDiarmid, Younan Xia, George Whitesides. Selective Deposition of Conducting Polymers on Hydroxyl-Terminated Surfaces with Printed Monolayers of Alkylsiloxanes as Templates[J]. Langmuir, 1997, 13:6480-6484
[28] Paolo Facci, Dario Alliata, Laura Andolfi, Bernhard Schnyder, Rudiger Kotz. Formation and characterization of protein monolayers on oxygen-exposing surfaces by multiple-step self-chemisorption[J]. Surface Science. 2002, 504: 282-292
[29] Niroshan Ramachandran, Eugenie Hainsworth, Bhupinder Bhullar, Samuel Eisenstein, Benjamin Rosen, Albert Y. Lau, Johannes C. Walter, Joshua LaBaer. Self-Assembling Protein Microarrays[J]. Science, 2004, 305:86-90
[30] Stefano Tugulu, Anke Arnold, India Sielaff, Kai Johnsson, Harm-Anton Klok. Protein-Functionalized Polymer Brushes[J]. Biomacromolecules, 2005, 6: 1602-1607
[31] 童勤义,孙国梁,徐晓莉,等.硅片直接健合中表面活化的研究[J].电子学报,1990,18(3):32-36
[32] 陈志敏,杨连生,刘仲明,刘芳.压电免疫传感器在梅毒检测中的研究.分析测试学报,2004,23(3):39-42
[33] 屈海云,王海涛,黄懿,陆豪杰,钟伟,孔继烈,等.有机玻璃微流控芯片表面的蛋白质固定化及应用研究[J].高等学校化学学报,2004,25,Suppl.59-60
[34] Bergbreiter, David E. Polyethylene surface chemistry[J]. Prog. Polym. Sci., 1994, 19:529-560
[35] E. Occhiello, M. Morra, G. Morini, F. Garbassi, P. Humphrey. Oxygen-plasma-treated polypropylene interfaces with air, water, and epoxy resins: Part Ⅰ. Air and water[J]. Journal of Applied Polymer Science. 1991, 42(2): 551-559
[36] Hopkins, J.; Wheale, S. H.; Badyal, J. P. S. Synergistic Oxidation at the Plasma/Polymer Interface[J]. J. Phys. Chem., 1996, 100(33): 14062-14066
[37] Barton, D.; Bradley, J. W.; Steele, D. A.; Short, R. D. Investigating Radio Frequency Plasmas Used for the Modification of Polymer Surfaces[J]. J. Phys. Chem. B., 1999, 103(21): 4423-4430[38] M. E. Ryan, J. P. S. Badyal. Surface Texturing of PTFE Film Using Nonequilibrium Plasmas[J]. Macromolecules, 1995, 28(5): 1377-1382
[39] France, R. M. Short, R. D. Plasma Treatment of Polymers: The Effects of Energy Transfer from an Argon Plasma on the Surface Chemistry of Polystyrene, and Polypropylene. A High-Energy Resolution X-ray Photoelectron Spectroscopy Study[J]. Langrnuir, 1998, 14(17): 4827-4835
[40] Koichiro Kato. Change of polypropylene film surface by chromic acid mixture treatment[J]. Journal of Applied Polymer Science, 1975, 19(6): 1593-1599
[41] P. Blais, D. J. Carlsson, G.W. Csullog, D. M. Wiles. The chromic acid etching of polyolefin surfaces, and adhesive bonding[J]. J. Colloid. Interface. Sci., 1974, 47(3): 636-649
[42] D. R. Fitchmun, S. Newman, R. Wiggle. Electroplating on crystalline polypropylene. Ⅰ. Compression molding and adhesion[J]. Journal of Applied Polymer Science, 1970, 14(10): 2441-2455
[43] D. R. Fitchmun, S. Newman, R. Wiggle. Electroplating on crystalline polypropylene. Ⅱ. Injection molding and adhesion. Journal of Applied Polymer[J]. Science, 1970, 14(10): 2457-2468
[44] C.E.M. Morris. Adhesive bonding of polyethylene[J]. J. Appl. Polym. Sci., 1970, 14:2171-2181
[45] D.A. House. Kinetics and mechanism of oxidations by peroxydisulfate[J]. Chem. Rev., 1962, 62(3): 185-203
[46] W.K. Wilmarth, A. Haim. Peroxide Reaction Mechanism[M]. J. O. Edwards (Ed.), New York: Interscience, 1962.175
[47] C.H. Bamford, K. G. AI-Lamee. Studies in polymer surface functionalization and grafting for biomedical and other applications[J].Polymer, 1994, 35(13): 2844-2852
[48] Price, G. J.; Keen, F.; Clifton, A. A. Sonochemically-Assisted Modification of Polyethylene Surfaces[J]. Macromolecules, 1996, 29(17): 5664-5670
[49] Kubota, Hitoshi; Hariya, Yayoi; Kuroda, Shin-ichi; Kondo, Takashi. Effect of photoirradiation on potassium persulfate-surface oxidation of low-density polyethylene film[J]. Polym. Degrad. Stab., 2001, 72:223-227
[50] Kang-Wook Lee, Thomas J. McCarthy. Surface-Selective Hydroxylation of Polypropylene[J]. Macromolecules, 1988, 21: 309-313[51] Peng Yang, Jian Yuan Deng, Wan Tai Yang. Confined photo-catalytic oxidation: a fast surface hydrophilic modification method for polymeric materials[J]. Polymer, 2003, 44:7157-7164
[52] 邓建平,杨万泰.表面光接枝技术及其在分离膜中的应用[J].膜科学与技术,1999,19(3):13-18
[53] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Photograft Polymerization of Binary Monomers Maleic Anhydride and n-Butyl Vinyl Ether on Polypropylene Film. 1. Effects of Principal Factors[J]. Polymer Journal, 2002, 34(11): 801-808
[54] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Photograft Polymerization of Binary Monomers Maleic Anhydride and n-Butyl Vinyl Ether on Polypropylene Film. 2. Some Mechanistical Aspects[J]. Polymer Journal, 2002, 34(11): 809-816
[55] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Graft Polymerization of Binary Monomers Maleic Anhydride/n-Butyl Vinyl Ether on the Polypropylene Film via Two-step Method[J]. Polymer Journal, 2002, 35(8): 613-621
[56] Deng Jianping, Yang Wantai. Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex.Ⅷ. Charge-Transfer Complex (4) [J]. Journal of Applied Polymer Science, 2006, 99: 2710-2720
[57] Deng Jianping, Yang Wantai.Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅸ. Charge-Transfer Complex (5)[J]. Journal of Applied Polymer Science, 2005, 97, 2230-2237
[58] Deng Jianping, Yang Wantai.Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅵ. Charge-Transfer Complex (2)[J]. Journal of Applied Polymer Science, 2005, 95, 910-915
[59] Deng Jianping, Yang Wantai. Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅴ. Charge-Transfer Complex (1)[J]. Journal of Applied Polymer Science, 2005, 95, 903 -909[60] Deng Jianping, Yang Wantai. Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅳ. Maleic Anhydride[J]. Journal of Applied Polymer Science, 2003, 87, 2318-2325
[61] Wantai Yang, Bengt Ranby. Bulk Surface Photografting Process and Its Applications. Ⅱ. Principal Factors Affecting Surface Photografting[J]. Journal of' Applied Polymer Science, 1996, 62, 545-555
[62] Wantai Yang, Bengt Ranby. Bulk Surface Photografting Process and Its Applications. Ⅰ. Reactions and Kinetics[J]. Journal of Applied Polymer Science, 1996, 62, 533-543
[63] Jian-Ping Deng, Wantai Yang, Bengt Ranby. Surface Photografting Polymerization of Vinyl Acetate (VAc), Maleic Anhydride (MAH), and Their Charge Transfer Complex (CTC). Ⅲ. VAc(3)[J]. Journal of Applied Polymer Science, 2001, 80, 1426-1433
[64] Jian-Ping Deng, Wantai Yang, Bengt Ranby. Surface Photografting Polymerization of Vinyl Acetate(VAc), Maleic Anhydride, and Their Charge Transfer Complex. Ⅱ. VAc(2)[J]. Journal of Applied Polymer Science, 2000, 77, 1522-1531
[65] Jian-Ping Deng, Wantai Yang, Bengt Ranby. Surface Photografting Polymerization of Vinyl Acetate(VAc), Maleic Anhydride, and Their Charge Transfer Complex. Ⅰ. VAc(1)[J]. Journal of Applied Polymer Science, 2000, 77, 1513-1521
[66] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Functionalization of Polypropylene Film via UV-Induced Photografting of N-Vinylpyrrolidone/Maleic Anhydride Binary Monomers[J]. Macromol. Chem. Phys. 2005, 206, 1106-1113
[67] G M Whitesides, J P Mathias, C T Seto. Molecular self-assembly and nanochemistry: a chemical strategy for the synthesis of nanostructures[J]. Science, 1991, 254:1312-1319
[68] 王娟娟,晁小练,杨祖培.分子自组装技术的研究现状[J].塑料科技,2004, (4):42-47
[69] 任恕.膜受体与传感器[M].北京:科学出版社,1996.
[70] Zhang Shuguang. Emerging biological materials through molecular self-assembly[J]. Biotechnology Advances, 2002, 20(5-6): 321-339
[71] Corinne L D. Estimating the Efficiency of Self-Assemblies [J]. Journal of??Supramolecular Chemistry, 2001, 1: 39-52
[72] 刘海林,马晓燕,袁莉,黄韵.分子自组装研究进展[J].材料科学与工程学报,2004,22(2):308-311
[73] Iler R. K.. Multilayers of Colloidal Particles[J]. J. Colloid Interface Science, 1966, 21:569-594
[74] Decher, C., Hong, J.-D., Buildup of Ultrathin Multilayer Films by a Self-Assembly Process: I. Consecutive Adsorption of Anionic and Cationic Bipolar Amphiphiles[J]. Makromol. Chem., Macromol. Symp., 1991, 46: 321-327
[75] G.Decher, J. D. Hong, Buildup of ultrathin multilayer films by a self-assembly process: II. Consecutive adsorption of anionic and cationic bipolar amphiphiles and polyelectrolytes on charged surfaces[J]. Bet. Bunsen-Ges. Phys. Chem. 1991, 95:1430-1434
[76] Decher, G., Hong, J.-D., Schmitt, J., Buildup of Ultrathin Multilayer Films by a Self-Assembly Process: Ⅲ. Consecutively Alternating Adsorption of Anionic and Cationic Polyelectrolytes on Charged Surfaces[J]. Thin Solid Films, 1992, 210/211:831-835
[77] Gero Decher. Fuzzy Nanoassemblies: Toward Layered Polymeric Multicomposites[J]. Science, 1997, 277:1232-1237
[78] 沈家骢,张希,孙铁鹏[J].分子沉积膜.自然科学进展,1997,7(1):1-6
[79] Steven W. Keller, Hyuk-Nyun Kim, Thomas E. Mallouk. Layer-by-Layer Assembly of Intercalation Compounds and Heterostructures on Surfaces: Toward Molecular "Beaker" Epitaxy[J]. J. Am. Chem. Soc. 1994, 116:8817-8818
[80] 吴涛,张希.自组装超薄膜:从纳米层状构筑到功能组装[J].高等学校化学学报,2001,22(6):1057-1065
[81] 李小甫,余海湖,姜德生.静电自组装技术及其应用[J].高技术通讯,2002,(11):51-54
[82] Elbert, D. L.; Herbert, C. B.; Hubbell, J. A. Thin Polymer Layers Formed by Polyelectrolyte Multilayer Techniques on Biological Surfaces[J]. Langrnuir, 1999, 15(16): 5355-5362
[83] Dong-Chan Lee, Bong-Jun Chang, Gustavo M. Morales, Young Ah Jang, Man-Kit Ng, Stephen T. Heller, Luping Yu. Functional polymers for layer-by-layer construction of multilayers via chemoselective immobilization[J].??Macromolecules, 2004, 37:1849-1856
[84] Chan, E. W.; Lee, D.-C.; Ng, M.-K.; Wu, G; Lee, K. Y. C.; Yu, L. A novel layer-by-layer approach to immobilization of polymers and nanoelusters[J]. J. Am. Chem. Soc. 2002, 124:12238-12243
[85] Eugene W. L. Chan and Luping Yu. Chemoselective immobilization of gold nanoparticles onto self-assembled monolayers[J]. Langrnuir, 2002, 18:311-313
[86] Zhaohui Yang, Jinyu Chen, Weixiao Cao. Self-assembled ultra-thin films fabricated from diazoresin and phenol-formaldehyde resin via H-bonding interaction[J]. Polymer International, 2004, 53:815-819
[87] Lan Huang, Guobin Luo, Xinsheng Zhao, Jinyu Chen, Weixiao Cao. Self-assembled multilayer films based on diazoresins studied by atomic force microscopy/friction force microscopy[J]. Journal of Applied Polymer Science, 2000, 78:631-638
[88] Qi Li, Jianhua Ouyang, Jinyu Chen, Xinsheng Zhao, Weixiao Cao. Photosensitive, self-assembled ultrathin films based on diazoresin and phosphate-containing polyanions[J]. Journal of Polymer Science: Part A: Polymer Chemistry, 2002, 40:222-228
[89] Hong Zhong, Jinfeng Wang, Xinru Jia, Ying Li, Yang Qin, Jinyu Chen, Xinsheng Zhao, Weixiao Cao, Mingqian Li, Yen Wei. Fabrication of covalently attached ultrathin films based on dendrimers via H-bonding attraction and subsequent UV irradiation[J]. Macromol. Rapid Commun., 2001, 22:583-586
[90] Jinyu Chen, Hao Luo, Boxuan Yang, Weixiao Cao. Photoimaging technique on printing A1 plate via self-assembly multilayer films based on diazoresin[J]. Journal of Applied Polymer Science, 2001, 80:1983-1987
[91] Zhaohui Yang, Weixiao Cao. Self-assemblies based on poly(4-diazonium styrene)[J]. Macromol. Chem. Phys., 2004, 205:241-246
[92] Tingbing Cao, Jinyu Chen, Chaohui Yang, Weixiao Cao. Fabrication of a stable layer-by-layer thin film based on diazoresin and phenolic hydroxy-containing polymers via H-bonding[J]. Macromol. Rapid Commun. 2001, 22:181-184
[93] Yang Zhaohui, Cao Weixiao. Covalently attached self-assembly of ultrathin films from hydroxy-containing porphyrin and diazoresin[J]. Joumal of Polymer Science: Part A: Polymer Chemistry, 2003, 41: 3103-3108
[94] Yongjun Zhang, Weixiao Cao. Stable self-assembled multilayer films of diazo??resin and poly(maleic anhydride-co-styrene) based on charge-transfer interaction[J]. Langmuir, 2001, 17:5021-5024
[95] Tingbing Cao, Liuhe Wei, Shuming Yang, Maofeng Zhang, Chunhui Huang, Weixiao Cao. Self-Assembly and Photovoltaic Property of Covalent-Attached Multilayer Film Based on Highly Sulfonated Polyaniline and Diazoresin[J]. Langmuir, 2002, 18:750-753
[97] Jingfeng Wang, Xinru Jia, Hong Zhong, Yufei Luo, Xinsheng Zhao, Weixiao Cao, and Mingqian Li. Self-Assembled Multilayer Films Based on Dendrimers with Covalent Interlayer Linkage[J]. Chem. Mater., 2002, 14:2854-2858
[97] Tingbing Cao, Shuming Yang, Jie Cao, Maofeng Zhang, Chunhui Huang, Weixiao Cao. Nanoassembly Film of Carboxylic Polyaniline with Photosensitive Diazoresin and Its Photoelectric Conversion Properties[J]. J. Phys. Chem., B, 2001, 105:11941-11944
[98] Jinyu Chen, Lan Huang, Liming Ying, Guobin Luo, Xinsheng Zhao, Weixiao Cao. Self-Assembly Ultrathin Films Based on Diazoresins[J]. Langrnuir, 1999, 15:7208-7212
[99] Tingbing Cao, Fang Wei, Yanlian Yang, Lan Huang, Xinsheng Zhao, and Weixiao Cao. Microtribologic Properties of a Covalently Attached Nanostructured Self-Assembly Film Fabricated from Fullerene Carboxylic Acid and Diazoresin[J]. Langmuir, 2002, 18:5186-5189
[100] 曹廷炳,杨术明,张茂峰,黄春辉,曹维孝.含磺化聚苯胺和重氮树脂自组装超薄膜的制备及其光电转换性能[J].高等学校化学学报,2002,23(6):1213-1215
[101] 翁健,张拥军,罗传秋,曹维孝.聚氨基苯腈自组装膜及其光谱分析[J].光谱学与光谱分析,2001,21(2):190-192
[102] 王洋,张茂峰,李琪,曹维孝.聚乙烯醇缩甲酰苯基-乙烯基吡啶鎓盐的自组装膜及图案化[J].高等学校化学学报,2004,25(10):1975-1977
[103] 曹维孝,丛海林.带羧基乳胶颗粒的制备、聚集以及与重氮树脂的自组装[J].精细化工,2002,19(9):518-520
[104] 杨朝晖,曹维孝.一种含有偶氮磺酸基与吡啶基的高分子氢键自组装及自组装超薄膜[J].高分子学报,2004,(5):776-779
[105] 杨朝晖,江 玮,曹维孝.聚4-重氮基苯乙烯与聚苯乙烯磺酸钠的自组装[J].??高分子学报,2003,(3):442-444
[106] 杨朝辉,曹廷炳,陈金玉,曹维孝.聚N-对羟苯基丙烯酰胺与重氮树脂的氢键自组装[J].高等学校化学学报,2002,23(2):342-344
[107] 曹维孝.光敏性聚电解质重氮树脂及其自组装[J].高分子通报,2002,(1):1-5
[108] 黄兰,顾倩颐,何元康,罗国宾,赵新生,曹维孝.含C60的聚电解质自组装膜微摩擦性能的研究[J].高等学校化学学报,2002,23(6):1193-1197
[109] 赵楠,鲁从华,曹维孝.重氮树脂基磁性超薄膜及其图形化[J].高分子学报,2004,(3):458-461
[110] 黄兰,黄飞,何元康,魏芳,赵新生,曹维孝.水溶性含C60聚电解质的制备及其与重氮树脂自组装膜AFMPFFM的初步研究[J].高分子学报,2002,(2):192-197
[111] Yongiun Zhang, Shuguang Yang, Ying Guan, Weixiao Cao, and Jian Xu. Fabrication of Stable Hollow Capsules byCovalent Layer-by-Layer Self-Assembly[J]. Macromolecules, 2003, 36:4238-4240
[112] Tingbing Cao, Shuming Yang, Yanlian Yang, Chunhui Huang, Weixiao Cao. Photoelectric Conversion Property of Covalent-Attached Multilayer Self-Assembled Films Fabricated from Diazoresin and Fullerol[J]. Langmuir, 2001, 17: 6034-6036
[113] Tingbing Cao, Fang Wei, Xiaoming Jiao, Jinyu Chen, Wei Liao, Xinsheng Zhao, Weixiao Cao. Micropattems of Protein and Conducting Polymer Molecules Fabricated by Layer-by-Layer Self-Assembly and Photolithography Techniques[J]. Langmuir, 2003, 19:8127-8129
[114] Conghua Lu, Fang Wei, Nianzu Wu, Lan Huang, Xinsheng Zhao, Xiaoming Jiao, Chuanqiou Luo, Weixiao Cao. Au Nanoparticle Micropatterns Prepared from Self-Assembled Films[J]. Langmuir, 2004, 20:974-977
[115] Jinyu Chen, Guobin Luo, Weixiao Cao. Fabrication of a Covalently Attached Multilayer Film via In-Situ Reaction[J]. Macromol. Rapid Commun., 2001, 22: 311-314
[116] Jinyu Chen, Hao Luo, Weixiao Cao. Interaction of diazoresins and sulfonate containing polyelectrolytes[J]. Polymer International, 2000, 49:382-386
[117] Yongjun Zhang, Weixiao Cao. Fabrication of an ESA Multilayer Film from a Diazo Resin by Direct Surface Charge Reversal[J]. Macromol. Rapid Commun.,??2001, 22:842-845
[118] Xi Zhang, Yipeng Sun, Manglai Gao, Xiangxing Kong, Jiacong Shen. Effects of pH on the supramolecular structure of polymeric molecular deposition films[J]. Macromol. Chem. Phys. 1996, 197:509-515
[119] Wei Kong, Xi Zhang, Mang Lai Gao, Hui Zhou, Wei Li, Jia Cong Shen. A new kind of immobilized enzyme multilayer based on cationic and anionic interaction[J]. Macromolecular Rapid Communications. 1994, 15(5): 405-409
[120] Yipeng Sun, Xi Zhanga, Changging Sun, Bo Wang, Jiacong Shen. Fabrication of ultrathin film containing bienzyme of glucose oxidase and glucoamylase based on electrostatic interaction and its potential application as a maltose sensor[J]. Macromol. Chem. Phys. 1996, 197:147-153
[121] Yuri Lvov, Katsuhiko Ariga, Izumi Ichinose, Toyoki Kunitake. Assembly of Multicomponent Protein Films by Means of Electrostatic Layer-by-Layer Adsorption[J]. J. Am. Chem. Soc., 1995, 117(22): 6117-6123
[122] Caruso, F.; Mohwald, H. Protein Multilayer Formation on Colloids through a Stepwise Self-Assembly Technique[J]. J. Am. Chem. Sot., 1999, 121(25): 6039-6046
[123] Caruso, F.; Schuler, C. Enzyme Multilayers on Colloid Particles: Assembly, Stability, and Enzymatic Activity[J]. Langmuir, 2000, 16(24): 9595-9603
[124] Frank Caruso, Harald Fiedler, Klaus Haage. Assembly of b-glucosidase multilayers on spherical colloidal particles and their use as active catalysts[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2000, 169: 287-293
[125] 吕德水,林汉枫,李扬眉,徐立恒,林贤福.LBL自组装技术及自组装生物功能膜结构[J].功能高分子学报,2001,14(4):499-503
[126] 孙启龙,王朝阳,童 真.纳米自组装聚电解质超薄多层膜[J].功能高分子学报,2000,13:332-336
[127] 朱以华,杨晓玲,李培勇,胡英.从层层组装的核壳粒子到医学/生物化学诊断和药物输送[J].化学进展,2003,15(6):512-517
[128] Yipeng Sun, Junqi Sun, Xi Zhang, Changqing Sun, Yue Wang, Jiacong Shen. Chemically modified electrode via layer-by-layer deposition of glucose oxidase (GOD) and polycation-bearing Os complex[J]. Thin Solid Films, 1998, 327-329:??730-733
[129] 竺亚斌,高长有,刘云肖,龚逸鸿,沈家骢。聚乳酸的层层自组装修饰及其内皮细胞相容性研究[J].高等学校化学学报,2004,25(7):1347-1350
[130] 何成毅,梁振鹏,王朝阳,刘新星,童真。PS胶体粒子表面逐层自组装固定化SOD及其生物活性[J].高等学校化学学报,2005,26(1):88-92
[131] Sukhorulov G. B., Donath E., Lichtenfeld H. et al. Layer-by-layer self-assembly of polyelectrolytes on colloidal patericles[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 1998, 137:253-266
[132] Frank Caruso, Rachel A. Caruso, Helmuth M6hwald. Nanoengineering of Inorganic and Hybrid Hollow Spheres by Colloidal Templating[J]. Science, 1998, 282:1111-1114
[133] 梁振鹏,王朝阳,孙启龙,童真.LbL层层纳米自组装法制备新型微胶囊[J].化学进展,2004,16(4):485-491
[134] Lvov, Y., Caruso, F. Biocolloids with Ordered Urease Multilayer Shells as Enzymatic Reactors[J]. Anal. Chem., 2001, 73:4212-4217
[135] Yuri Lvov, Gero Decher, and Helmuth Mohwald. Assembly, Structural Characterization, and Thermal Behavior of Layer-by-Layer Deposited Ultrathin Films of Poly(vinyI sulfate) and Poly(allylamine)[J]. Langrnuir, 1993, 9: 481-486
[136] Wei Chen, Thomas J. McCarthy. Layer-by-Layer Deposition: A Tool for Polymer Surface Modification[J]. Macromolecules, 1997, 30:78-86
[137] 曹惠,戴礼兴,左葆齐.丝蛋白在生物医学领域中应用的研究进展[J].丝绸,2005,(6):48-51
[138] Iqbal Gill, Antonio Ballesteros. Encapsulation of Biologicals within Silicate, Siloxane, and Hybrid Sol-Gel Polymers: An Efficient and Genetic Approach[J]. J. Am. Chem. Soc., 1998, 120(34): 8587-8598
[139] 许松伟,姜忠义,吴洪,黄淑芳.溶胶-凝胶生物包囊化物的制备与特性[J].化学进展,2004,16(3):443-449
[140] 李军,伊敏,刘宁,哈鸿飞.PET纤维上SuMA的紫外光接枝及对蛋白质的固定化[J].北京大学学报(自然科学版),1998,34(6):746-751
[141] Li Jun, Yi Min, Ha Hongfei. Applicat ion of Sepharose and Sephadex Modified by Means of Radiation Grafting in Separation of Biomolecules[J]. Radiat. Phys.??Chem., 1995, 46(4-6) : 847-850
[142] Margel S, Beitler U, Ofarim M. Polyacrolein Microsphere as a New Tool in Cell Biology[J]. J. Cell Sci., 1982, 56:157-175
[143] Tarcha P J, Misun D, Finley D, et al. Polymer Latexes: Preparation, Characterization and Applications[J]. ACS Sump. Ser., 1992, 492:347-352
[144] 刘康栋,赵建龙.蛋白质芯片技术进展[J].中国生物工程杂志,2004,24(12):48-52
[145] MacBeath G. Schreiber S L. Printing proteins as microarrays for high-throughput function determination[J]. Science, 2000, 289:1760-1763
[146] Ziauddin M, Sabatini D M. Microarrays of cell expressing defined cDNAs[J]. Nature, 2001, 411:107-110
[147] Tempgn M F, Stoll D, Schrenk M, et al.Protein microarray technology[J]. Trends Biotechnol., 2002, 20:160-166
[148] 居乃琥.酶工程研究和酶工程产业的新进展(Ⅰ)——国际酶工程研究领域的若干“热点”和前沿课题[J].食品与发酵工业,2000,26(3):54-62
[149] 居乃琥.生物技术研究和开发的进展与展望[J].中国生物工程杂志,1987,(4):17-29
[150] 居乃琥.生物技术研究和开发的进展与展望(续)[J].中国生物工程杂志,1987(5):1-17
[151] 居乃琥.21世纪酶工程研究的新动向[J].工业微生物,2001,31(1):37-45
[152] 关燕清,徐和德,郭宝江.光固定化藻蓝蛋白对体外肝癌细胞7402的抑制作用[J].离子交换与吸附,2000,16(6):547-552
[153] Takashi Sugawara, Takehisa Matsuda. Novel Surface Graft Copolymerization Method with Micron-Order Regional Precision[J]. Macromolecules, 1994, 27(26): 7809-7814
[154] Takashi Sugawara, Takehisa Matsuda. Development of a Novel Protein Fixation Method with Micron-Order Precision[J]. Langmuir, 1995, 11 (6): 2267-2271
[155] 陈慧,吴朝阳,王桦,沈国励,俞汝勤.一种基于巯基化聚丙烯胺自组装膜的免疫传感器固定方法[J].分析化学,2003,31(8):897-900
[156] 钟春英,彭蓉,彭建新,洪华珠.蛋白质芯片技术[J].生物技术通报.2004,(2):34-37
[157] Walter G. Bussow K, Cahil D, et al. Protein arrays for gene expression and??molecular interaction screeing[J]. Cutr Opin Microbiol, 2000, 3(3): 298-302
[158] MacBeath G, Schreiber SL. Printing proteins as microarrays for high throughput function determination[J]. Science, 2000, 289(5485): 1760-1763
[159] 顾健腾,陶国才.蛋白质芯片与全身麻醉机制[J].《国外医学》麻醉学与复苏分册,2005,26(4):203-205
[160] Heng Zhu, Metin Bilgin, Rhonda Bangham, David Hall, Antonio Casamayor, Paul Bertone, Ning Lan, Ronald Jansen, Scott Bidlingmaier, Thomas Houfek, Tom Mitchell, Perry Miller, Ralph A. Dean, Mark Gerstein, Michael Snyder. Global Analysis of Protein Activities Using Proteome Chips[J]. Science, 2001, 293: 2101-2105
[161] 石羽杰,王玮,霍克克.蛋白质芯片技术的新进展[J].科技导报,2005,23(9):59-62
[162] Niroshan Ramachandran, Eugenie Hainsworth, Bhupinder Bhullar, Samuel Eisenstein, Benjamin Rosen, Albert Y. Lau, Johannes C. Walter, Joshua LaBaer. Self-Assembling Protein Microarrays[J]. Science, 2004, 305:86-90
[163] 彭聪,李桂源。蛋白质组与蛋白质芯片[J].国外医学.生理、病理科学与临床分册,2003,23(3):320-322
[164] 郑美凤.顺丁烯二酸、反丁烯二酸及顺酸,化工百科全书[M],北京:化学工业出版社,1990。第15卷,pp 181-202
[165] 鲁彦玲,董奕,陈明鸣,许文.顺丁烯二酸酐的合成及其下游产品开发[J].化学工业与工程,2001,18:52-56
[166] 邢长民.马来酸酐电荷转移络合物体系表面接枝聚合研究及“自分散”聚合制备高分子微球[D].北京:北京化工大学,2005
[167] Trivedi B C, Culberteson B M. Maleic anhydride[M]. New York: Plenum Press, 1982.
[168] Lang J L, Pavelich W A, Clarey H C. The homopolymerization of maleic anhydride[J]. J. Polym. Sci., 1961, 55:531-532
[169] Lang J L, Pavelich W A, Clarey H C. Homopolymerization ofmaleic anhydride. Ⅰ. Preparation of the polymer[J]. J. Polym. Sci. A-I, 1963, 1:1123-1136
[170] Nagahiro I, Nishihara K, Sakota N. Photoinduced polymerization of maleic anhydride in dioxane[J]. J. Polym. Sci. Polym. Chem. Ed., 1974, 12:785-792
[171] Gaylord N G, Maiti S. Participation of excited species in radical catalyzed??homopolymerization of maleic anhydride[J]. J. Polym. Sci. Polym. Lett. Ed., 1973, 11:253-256
[172] Odian G.Principles of polymerization[M]. 2nd edition. New York: John Wiley and Sons, 1981.
[173] Cowie J M G. Alternating copolymers[M]. 1st edition, New York: Plenum Press, 1985.
[174] 应圣康,余丰年.共聚合原理[M].第1版.北京:化学工业出版社,1984。
[175] Ratzsch M. The role of charge transfer monomer complexes in radical copolymerization[J]. Makromol. Chem., 1984, 185:2411-2420
[176] Hill D J T, O'Donnell J H, O'Sullivan P W, Pomery P J, Whittaker A K. An ESR study of the UV photolysis of styrene and maleic anhydride at 90 K[J]. J. Macromol. Sci.-Chem., 1985, A22:403-414
[177] Barton J, Capek I. Copolyerization of styrene with maleic anhydride photoinitiated by the excited charge-transfer-complex styrene-maleic anhydride[J]. Makromol. Chem., 1980, 181: 241-253
[178] Deb P C, Meyerhoff G. Study on kinetics of copolymerization of styrene and maleic anhydride in dioxane[J]. Eur. Polym. J., 1984, 20:713-719
[179] Caze C, Louchex C. Charge transfer complexes. Competition between donor and solvent for the acceptor. A new method of study. I. Case ofmaleic anhydride and vinyl comonomers: styrene and vinyl acetate[J]. J. Macromol. Sci.-Chem., 1973, A7:991-1005
[180] Vukovic R, Kuresevic V, Fles D. Alternating copolymerization of β-methyl-styrene and maleic anhydride[J]. J. Polym. Sci., 1987, A25:327-335
[181] Amaud R, Caze C, Fossey J. Studies of radical alternating copolymerization. Ⅰ. Quantitative determination of the relative reactivities between free comonomers and a complex between them. A. Theoretical treatment in terms of frontier molecular orbital interactions, application to radical maleic anhydride-vinyl acetate alternating copolymerization[J]. J. Macromol. Sci.-Chem., 1980, A14: 1269-1284
[182] Ghesqulere D, Amaud R, Caze C. Conformational and nuclear magnetic resonance studies of the charge transfer complex between vinyl acetate and maleic anhydride. Reactivity of this complex in radical alternating copolymerization[J]. J. Phys. Chem., 1979, 83:2029-2034[183] Caze C, Louchex C. Mechanism of alternating copolymerization of vinyl acetate and maleic anhydride[J]. J. Macromol. Sci.-Chem., 1975, A9:29-43
[184] Caze C, Louchex C. Studies of radical alternating copolymerization. Ⅱ. Influence of charge transfer complex between comonomers on the microstructure of the copolymers. Case of maleic anhydride and vinyl acetate[J]. J. Macromol. Sci.-Chem., 1981, AI5:95-105
[185] Seymoud R B, Garner D P, Sanders L J. Alternating and random copolymers of vinyl acetate and maleic anhydride[J]. J. Macromol. Sci.-Chem., 1979, A13: 173-181
[186] Vukovic R, Kuresevic V, Fles D. Copolymerization of 2-phenylvinyl alkyl ethers and maleic anhydride[J]. J. Polym. Sci. Polym. Chem. Ed., 1977, 15:2981-2985
[187] Kuresevic V, Vukovic R, Fles D. Copolymerization of 2-phenylvinyl alkyl thioethers and maleic anhydride[J]. J. Polym. Sci. Polym. Chem. Ed., 1979, 17: 1839-1841
[188] Fles D, Vukovic R, Kuresevic V, Radicevic R. The influence of steric factors on the mechanism of copolymerization of phenylvinyl alkyl ethers and maleic anhydride[J]. J. Polym. Sci., 1981, A19:35-43
[189] George G, Konstantinov C, Kabaivanov V. Role of the charge transfer complex during the copolymerization of N-vinylpyrrolidone and maleic anhydride[J]. Macromolecules, 1992, 25:6302-6308
[190] GokseI C, Hacioglu B, Akbulut U. Spontaneous copolymerization of maleic anhydride and N-vinylimidazole in 1,4-dioxane. I. Charge transfer complexation and kinetics of the copolymerization[J]. J. Polym. Sci., 1997, A35:3735-3743
[191] Boudevska H, Platchkova S. The influence of molecular interaction on polymerization. 5. Copolymerization of benzyl methacrylate with maleic anhydride[J]. Makromol. Chem., 1981, 182: 1119-1125
[192] Rzaev Z M O, Akovali G, Salamova U. Effect of complex formation and cyclization in radical copolymerisation of allyl methacrylates with maleic anhydride[J]. J. Polym. Sci. Polym. Chem., 1998, 36:1501-1508
[193] Jones J A, Ottenbrite R M. Preparation and structural characterization of poly(4-vinylphenylacetate-co-maleic anhydride)[J]. J. Polym. Sci., 1986, A24: 1487- 1495
[194] Gaylord N G, Maiti S, Dixit S S. Donor-acceptor complex in copolymerization.??ⅩⅩⅪⅩ. alternating diene-dienophile copolymers. 6. Photosensitized copolymerization of conjugated dienes and maleic anhydride[J]. J. Macromol. Sci.-Chem., 1972, A6:1521-1532
[195] Chang Y, McCormick C L. Water-soluble copolymers. 47. Copolymerization of maleic anhydride and N-vinyl formamide[J]. Macromolecules, 1993, 26: 4814-4817
[196] Butler GB, Badgett JT, Sharabashi M. Characterization of the charge transfer complex from furan and maleic anhydride and the alternating copolymer[J]. J. Macromol. Sci.-Chem., 1970, A4:51-63
[197] Torres A, Castano F, Alvarino JM. The charge transfer complex maleic anhydride-tetrahydrofuran and its role as photosensitizer in the polymerization of methyl methacrylate[J]. Makromol. Chem., 1978, 179:2653-2661
[198] FOster R. Organic charge-transfer complex[M]. London: Academic Press, 1969.
[199] Mulliken RS. Molecular compounds and their spectra. Ⅱ[J]. J. Am. Chem. Soc., 1952, 74:811-824
[200] 周维书.有机药物配伍变化的化学键理论基础[M]。北京:科学出版社,1982。p149
[201] 宋化灿,英伯宁,苏镜娱.电荷转移络合物理论在有机化学中的应用[J].化学通报,1997,9:35-38
[202] 英伯宁,宋化灿,苏镜娱.电荷转移络合物理论在生物医学方面的应用[J].化学通报,1996,7:20-23
[203] 赵凤林,周彪,徐变珍.电荷转移络合物形成机制及其若干应用[J].大学化学,1998,13,28-31
[204] 庄会荣.电荷转移络合物及其在药物定量分析中的应用[J].临沂师范学院学报,2002,24(6):30-33
[205] 冯喜兰,黄建华,杨小雨.电荷转移络合物形成机制及其在生物医药方面的应用[J].河南职业技术师范学院学报,2004,32:56-58
[206] 林青松.前程似锦的电荷转移络合物[J]。自然杂志,1997,20(3):160-162
[207] 杨文军,杨清传,吕海港,陈慧英,侯士敏,薛增泉,马立平,庞世瑾.有机电荷转移体系用于超高密度信息存储研究[J].材料研究学报,1999,13:576-580
[208] Bartlett P D, Nozaki K. The polymerization of allyl compounds. Ⅲ. The??peroxide-induced copolymerization of allyl acetate with maleic anhydride[J]. J. Am. Chem. Soc., 1946, 68:1495-1504
[209] Shirota Y, Mikawa H. Thermally and photochemically induced charge-transfer polymerizations[J]. J Macromol Sci-Rev Macromol Chem, 1977-1978, C16: 129-196
[210] Hill D J T, O'Donnell J, O'Sullivam P W. The role ofdonor-acceptor complexes in polymerization[J]. Prog. Polym. Sci., 1982, 8:215-276
[211] 董宇平,封麟先,杨士林,沈家骢.苯乙烯—马来酸酐自由基共聚反应(Ⅰ)苯乙烯—马来酸酐电荷转移络合反应[J].高分子通报,1998,(2):46-50
[212] 董宇平,封麟先,杨士林,沈家骢.苯乙烯—马来酸酐自由基共聚反应(Ⅱ)苯乙烯—马来酸酐聚合反应机理[J].高分子通报,1998,(3):51-58
[213] 单国荣,翁志学,黄志明,潘祖仁。交替共聚中的自由单体—络合理论[J].高分子通报,1996,(3):184-188[1] Lee K.-W, McCarthy, T. J. Surface-Selective Hydroxylation of Polypropylene[J]. Macromolecules, 1988, 21: 309-313
[2] Bamford, C. H.; AI-Lamee, K. (2 Polymer surface functionalisation and grafting by a simple and inexpensive method[J]. Macromol. Rapid Commun., 1994, 15: 379-384
[3] Price, G.J.; Keen, F.; Clifton, A. A. Sonochemically-Assisted Modification of Polyethylene Surfaces[J]. Macromolecules, 1996, 29(17): 5664-5670
[4] Kubota, Hitoshi; Hariya, Yayoi; Kuroda, Shin-ichi; Kondo, Takashi. Effect of photoirradiation on potassium persulfate-surface oxidation of low-density polyethylene film[J]. Polym. Degrad. Stab., 2001, 72:223-227
[5] Bergbreiter, David E. Polyethylene surface chemistry[J]. Prog. Polym. Sci., 1994, 19:529-560
[6] Dias Anthony J, McCarthy Thomas J. Synthesis of a two-dimensional array of organic functional groups: surface-selective modification of poly(vinylidene fluoride) [J]. Macromolecules, 1984, 17(12): 2529-2531
[7] Garbassi F, Morra M, Occhiello E, editors. Polymer surface: from physics to technology[M]. New York: Wiley; 1998. Chapter 7, revised and updated edition
[8] Ozdemir M, Sadikoglu H. A new and emerging technology: laser-induced surface modification of polymers[J]. Trends Food Sci. Technol., 1998, 9:159-167
[9] C.E.M. Morris. Adhesive bonding of polyethylene[J]. J. Appl. Polym. Sci., 1970, 14:2171-2181
[10] D.A. House. Kinetics and mechanism of oxidations by peroxydisulfate[J]. Chem. Rev., 1962, 62(3): 185-203
[11] W.K. Wilmarth, A. Haim, J. O. Edwards (Ed.). Peroxide Reaction Mechanism[M]. Interscience: New York, 1962, pp 175
[12] C.H. Bamford, K. G. AI-Lamee. Studies in polymer surface functionalization and grafting for biomedical and other applications[J].Polymer, 1994, 35(13):??2844-2852
[13] Peng Yang, Jian Yuan Deng, Wan Tai Yang. Confined photo-catalytic oxidation: a fast surface hydrophilic modification method for polymefic materials[J]. Polymer, 2003,44:7157-7164
[14] 邓建平,杨万泰.表面光接枝技术及其在分离膜中的应用[J].膜科学与技术,1999,19(3):13-18
[15] 邢长民.马来酸酐电荷转移络合物体系表面接枝聚合研究及“自分散”聚合制备高分子微球[D].北京:北京化工大学,2005
[16] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Photograft Polymerization of Binary Monomers Maleic Anhydride and n-Butyl Vinyl Ether on Polypropylene Film. 1. Effects of Principal Factors[J]. Polymer Journal, 2002, 34(11): 801-808
[17] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Photograft Polymerization of Binary Monomers Maleic Anhydride and n-Butyl Vinyl Ether on Polypropylene Film. 2. Some Mechanistical Aspects[J]. Polymer Journal, 2002, 34(11): 809-816
[18] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Graft Polymerization of Binary Monomers Maleic Anhydride/n-Butyl Vinyl Ether on the Polypropylene Film via Two-step Method[J]. Polymer Journal, 2002, 35(8): 613-621
[19] Deng Jianping, Yang Wantai. Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex.Ⅷ. Charge-Transfer Complex (4)[J]. Journal of Applied Polymer Science, 2006, 99: 2710-2720
[20] Deng Jianping, Yang Wantai.Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅸ. Charge-Transfer Complex (5)[J]. Journal of Applied Polymer Science, 2005, 97, 2230-2237
[21] Deng Jianping, Yang Wantai.Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅵ.??Charge-Transfer Complex (2)[J]. Journal of Applied Polymer Science, 2005, 95, 910-915
[22] Deng Jianping, Yang Wantai. Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅴ. Charge-Transfer Complex (1)[J]. Journal of Applied Polymer Science, 2005, 95, 903-909
[23] Deng Jianping, Yang Wantai. Surface Photografting Polymerization of Vinyl Acetate, Maleic Anhydride, and Their Charge-Transfer Complex. Ⅳ. Maleie Anhydride[J]. Journal of Applied Polymer Science, 2003, 87, 2318-2325
[24] Wantai Yang, Bengt Ranby. Bulk Surface Photografting Process and Its Applications. Ⅱ. Principal Factors Affecting Surface Photografting[J]. Journal of' Applied Polymer Science, 1996, 62, 545-555
[25] Wantai Yang, Bengt Ranby. Bulk Surface Photografting Process and Its Applications. Ⅰ. Reactions and Kinetics[J]. Journal of Applied Polymer Science, 1996, 62, 533-543
[26] Jian-Ping Deng, Wantai Yang, Bengt Ranby. Surface Photografting Polymerization of Vinyl Acetate (VAc), Maleic Anhydride (MAH), and Their Charge Transfer Complex (CTC). Ⅲ. VAc(3)[J]. Journal of Applied Polymer Science, 2001, 80, 1426-1433
[27] Jian-Ping Deng, Wantai Yang, Bengt Ranby. Surface Photografting Polymerization of Vinyl Acetate(VAc), Maleic Anhydride, and Their Charge Transfer Complex. Ⅱ. VAc(2)[J]. Journal of Applied Polymer Science, 2000, 77, 1522-1531
[28] Jian-Ping Deng, Wantai Yang, Bengt Ranby. Surface Photografting Polymerization of Vinyl Acetate(VAc), Maleic Anhydride, and Their Charge Transfer Complex. Ⅰ. VAc(1)[J]. Journal of Applied Polymer Science, 2000, 77, 1513-1521
[29] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Functionalization of Polypropylene Film via UV-Induced Photografting of N-Vinylpyrrolidone/Maleic Anhydride Binary Monomers[J]. Macromol. Chem. Phys. 2005, 206, 1106-1113
[30] Yang. W. T., B. Ranby. Bulk surface photografting process and its applications. Ⅰ.??Reactions and kinetics[J]. J. Appl. Polym. Sci., 1996, 62:533-543
[31] Yang. W. T., B. Ranby. Bulk surface photografting process and its applications. Ⅱ. Principal factors affecting surface photografting[J]. J. Appl. Polym. Sci., 1996, 62: 545-555
[32] 邢其毅,徐瑞秋,周政。基础有机化学[M].北京:高等教育出版社,1980,p203
[33] 姚新生。有机化合物波谱解析[M].北京:中国医药科技出版社,1997,p270
[34] 冯金城.有机化合物结构分析与鉴定[M].北京:国防工业出版社,2003,p28
[35] Hoffman, A. S. Surface modification of polymers: physical, chemical, mechanical and biological methods[J]. Macromol. Symp., 1996, 101:443-454
[36] Singh, R. P. Surface grafting onto polypropylene -- a survey of recent developments[J]. Prog. Polym. Sci., 1992, 17:251-281
[37] Hoffman, A. S. Biomedical applications of plasma gas discharge processes[J]. J. Appl. Polym. Sci., Appl. Polym. Symp., 1988, 42:251-267
[38] Gerenser. L. J., Elman. J. F., Mason. M. G, Pochan. J. M. E.s.c.a. studies of corona-discharge-treated polyethylene surfaces by use of gas-phase derivatization[J]. Polymer, 1985, 26:1162-1166
[39] Pochan, J. M., Gerenser, L. J., Elman, J. F. An E.s.e.a. study of the gas-phase derivatization of poly(ethylene terephthalate) treated by dry-air and dry-nitrogen corona discharge[J]. Polymer, 1986, 27:1058-1062
[40] Ashutosh Chilkoti, Buddy D. Ratner, David Briggs. Plasma-deposited polymeric films prepared from carbonyl-containing volatile precursors: XPS chemical derivatization and static SIMS surface characterization[J]. Chem. Mater., 1991, 3: 51-61
[41] Christopher Batich, Ali Yahiaoui. Surface modification. Ⅰ .graft polymerization of acrylamide onto low-density polyethylene by Ce4+-induced initiation[J]. J. Polym. Sci. Part A: Polym. Chem., 1987, 25:3479-3488[1] Decher G, Hong J D. Buildup of ultrathin multilayer films by a self-assembly process: I. consecutive adsorption of anionic and cationic bipolar amphiphiles[J]. Makromol. Chem. Macromol. Symp., 1991,46: 321-327
[2] G. Decher, J. D. Hong. Buildup of ultrathin multilayer films by a self-assembly process: II. Consecutive adsorption of anionic and cationic bipolar amphiphiles and polyelectrolytes on charged surfaces[J]. Ber. Bunsen-Ges. Phys. Chem., 1991, 95:1430-1434
[3] Gero Decher. Fuzzy Nanoassemblies: Toward Layered Polymeric Multicomposites[J]. Science, 1997, 277: 1232-1237
[4] Nicholas A. Kotov, Imre Dekany, Janos H. Fendler. Layer-by-layer self-assembly of polyelectrolyte-semiconductor nanoparticle composite films[J]. J. Phys. Chem., 1995,99(35): 13065-13069
[5] Guangzhao Mao, Yi-hua Tsao, Matthew Tirrell, H. Ted Davis, Volker Hessel, Helmut Ringsdorf. Interactions, structure, and stability of photoreactive bolaform amphiphile multilayers[J]. Langmuir, 1995,11(3): 942-952
[6] Jinyu Chen, Lan Huang, Liming Ying, Guobin Luo, Xinsheng Zhao, and Weixiao Cao. Self-assembly ultrathin films based on diazoresins[J]. Langmuir, 1999, 15: 7208-7212
[7] Betrand P, Jonas A, Laschewsky A, et al. Ultrathin polymer coatings by complexation of polyelectrolytes at interfaces: suitable materials, structure and properties[J]. Macromol. Rapid Commun., 2000,21(7): 319-348
[8] Wang Liyan, Wang Zhiqiang, Zhang Xi, et al. A new approach for the fabrication of an alternating multilayer film of poly(4-vinylpyridine) and poly( acrylic acid) based on hydrogen bonding[J]. Macroml. Rapid Commun., 1997,18(6): 509-514
[9] Stockton W B, Rubner M F. Molecular-level processing of conjugated Polymers. 4. layer-by-layer manipulation of polyaniline via hydrogen-bonding interactions[J]. Macromolecules, 1997, 30(9): 2717-2725[10] Feldheim D L, Grabar K C, Natan M J, et al. Electron transfer in self-assembled inorganic polyelectrolyte/metal nanoparticle heterostructures[J]. J. Am. Chem. Soc, 1996,118(32): 7640-7641
[11] Ariga K, Lvov Y, Kunitake T. Assembling alternate dye-polyion molecular films by electrostatic layer-by-layer adsorption[J]. J. Am. Chem. Soc, 1997, 119(9): 2224-2231
[12] Cooper T M, Campbell A L, Crane R L. Formation of polypeptide-dye multilayers by electrostatic self-assembly technique[J]. Langmuir, 1995,11(7): 2713-2718
[13] Kleinfeld E R, Ferguson G S. Stepwise formation of multilayered nanostructural films from macromolecular precursors[J]. Science, 1994, 265: 370-373
[14] Lvov Y, Ariga K, Ichinose I, et al. Assembly of multicomponent protein films by means of electrostatic layer-by-layer adsorption[J]. J. Am. Chem. Soc, 1995, 117(22): 6117-6123
[15] Levasalmi J -M, McCarthy T J. Poly(4-methyl-1-pentene)-Supported Polyelectrolyte Multilayer Films: Preparation and Gas Permeability[J]. Macramolecules, 1997, 30(6): 1752-1757
[16] Stroeve P, Vasquez V, Coelho MAN, et al. Gas transfer in supported films made by molecular self-assembly of ionic polymers[J]. Thin Solid Films, 1996, 284-285: 708-712
[17] Klitzing R V, Mohwald H. Transport through ultrathin polyelectrolyte films[J]. Thin Solid Films, 1996,284-285: 352-356
[18] Cheung J H, Fou A F, Rubner M F. Molecular self-assemble of conducting polymers[J]. Thin Solid Films, 1994, 244: 985-989
[19] Ferreira M, Rubner M F. Molecular-level processing of conjugated polymers. 1. layer-by-layer manipulation of conjugated polyions[J]. Macromolecules, 1995, 28(21): 7107-7114
[20] Decher G, Lehr B, Lowack K, et al. New nanocompoite films for biosensors: layer-by-layer adsorbed films of polyelectrolyte, proteins or DNA[J]. Biosensors and Bioelectronics, 1994, 9: 677-684[21] Chen W, McCarthy T J. Layer-by-layer deposition: a tool for polymer surface modificationp[J]. Macromolecules, 1997, 30(1): 78-86
[22] Hsieh M C, Farris R J, McCarthy T J. Surface "priming" for layer-by-layer deposition: polyelectrolyte multilayer formation on allylamine plasma-modified poly(tetrafluoroethylene)[J]. Macromolecules, 1997, 30(26): 8453-8458
[23] Laschewsky A, Mayer B, Wischerhoff E, et al. A new route to thin polymeric, non-centrosymmetric coatings [J]. Thin Solid Films, 1996,284-285: 334-337
[24] Dong-Chan Lee, Bong-Jun Chang, Gustavo M. Morales, Young Ah Jang, Man-Kit Ng, Stephen T. Heller, Luping Yu. Functional polymers for layer-by-layer construction of multilayers via chemoselective immobilization[J]. Macromolecules, 2004,37: 1849-1856
[25] Chan, E. W.; Lee, D.-C; Ng, M.-K.; Wu, G.; Lee, K. Y. C; Yu, L. A novel layer-by-layer approach to immobilization of polymers and nanoclusters[J]. J. Am. Chem. Soc. 2002, 124: 12238-12243
[26] Eugene W. L. Chan and Luping Yu. Chemoselective immobilization of gold nanoparticles onto self-assembled monolayers[J]. Langmuir, 2002,18: 311-313
[27] Zhaohui Yang, Jinyu Chen, Weixiao Cao. Self-assembled ultra-thin films fabricated from diazoresin and phenol-formaldehyde resin via H-bonding interaction[J]. Polymer International, 2004, 53: 815-819
[28] Lan Huang, Guobin Luo, Xinsheng Zhao, Jinyu Chen, Weixiao Cao. Self-assembled multilayer films based on diazoresins studied by atomic force microscopy/friction force microscopy[J]. Journal of Applied Polymer Science, 2000,78:631-638
[29] Qi Li, Jianhua Ouyang, Jinyu Chen, Xinsheng Zhao, Weixiao Cao. Photosensitive, self-assembled ultrathin films based on diazoresin and phosphate-containing polyanions[J]. Journal of Polymer Science: Part A: Polymer Chemistry, 2002, 40: 222-228
[30] Hong Zhong, Jinfeng Wang, Xinru Jia, Ying Li, Yang Qin, Jinyu Chen, Xinsheng Zhao, Weixiao Cao, Mingqian Li, Yen Wei. Fabrication of covalently attached??ultrathin films based on dendrimers via H-bonding attraction and subsequent UV irradiation[JJ. Macromol. Rapid Commun., 2001,22: 583-586
[31] Jinyu Chen, Hao Luo, Boxuan Yang, Weixiao Cao. Photoimaging technique on printing Al plate via self-assembly multilayer films based on diazoresin[J]. Journal of Applied Polymer Science, 2001, 80: 1983-1987
[32] Zhaohui Yang, Weixiao Cao. Self-assemblies based on poly(4-diazonium styrene)[J]. Macromol. Chem. Phys., 2004,205: 241-246
[33] Tingbing Cao, Jinyu Chen, Chaohui Yang, Weixiao Cao. Fabrication of a stable layer-by-layer thin film based on diazoresin and phenolic hydroxy-containing polymers via H-bonding[J]. Macromol. Rapid Commun. 2001,22: 181-184
[34] Yang Zhaohui, Cao Weixiao. Covalently attached self-assembly of ultrathin films from hydroxy-containing porphyrin and diazoresin[J]. Journal of Polymer Science: Part A: Polymer Chemistry, 2003,41: 3103-3108
[35] Yongjun Zhang, Weixiao Cao. Stable self-assembled multilayer films of diazo resin and poly(maleic anhydride-co-styrene) based on charge-transfer interaction[J]. Langmuir, 2001,17: 5021-5024
[36] Tingbing Cao, Liuhe Wei, Shuming Yang, Maofeng Zhang, Chunhui Huang, Weixiao Cao. Self-Assembly and Photovoltaic Property of Covalent-Attached Multilayer Film Based on Highly Sulfonated Polyaniline and Diazoresin[J]. Langmuir, 2002,18: 750-753
[37] Jingfeng Wang, Xinru Jia, Hong Zhong, Yufei Luo, Xinsheng Zhao, Weixiao Cao, and Mingqian Li. Self-Assembled Multilayer Films Based on Dendrimers with Covalent Interlayer Linkage[J]. Chem. Mater., 2002, 14: 2854-2858
[38] Tingbing Cao, Shuming Yang, Jie Cao, Maofeng Zhang, Chunhui Huang, Weixiao Cao. Nanoassembly Film of Carboxylic Polyaniline with Photosensitive Diazoresin and Its Photoelectric Conversion Properties[J]. J. Phys. Chem., B, 2001, 105: 11941-11944
[39] Jinyu Chen, Lan Huang, Liming Ying, Guobin Luo, Xinsheng Zhao, Weixiao Cao. Self-Assembly Ultrathin Films Based on Diazoresins[J]. Langmuir, 1999, 15:??7208-7212
[40] Tingbing Cao, Fang Wei, Yanlian Yang, Lan Huang, Xinsheng Zhao, and Weixiao Cao. Microtribologic Properties of a Covalently Attached Nanostructured Self-Assembly Film Fabricated from Fullerene Carboxylic Acid and Diazoresin[J]. Langmuir, 2002, 18:5186-5189
[41] 曹廷炳,杨术明,张茂峰,黄春辉,曹维孝。含磺化聚苯胺和重氮树脂自组装 超薄膜的制备及其光电转换性能[J].高等学校化学学报,2002,23(6): 1213-1215
[42] 翁健,张拥军,罗传秋,曹维孝。聚氨基苯腈自组装膜及其光谱分析[J].光谱学与光谱分析,2001,21(2):190-192
[43] 王洋,张茂峰,李琪,曹维孝.聚乙烯醇缩甲酰苯基-乙烯基吡啶錙盐的自组装膜及图案化[J].高等学校化学学报,2004,25(10):1975-1977
[44] 曹维孝,丛海林.带羧基乳胶颗粒的制备、聚集以及与重氮树脂的自组装[J].精细化工,2002,19(9):518-520
[45] 杨朝晖,曹维孝.一种含有偶氮磺酸基与吡啶基的高分子氢键自组装及自组装超薄膜[J].高分子学报,2004,(5):776-779
[46] 杨朝晖,江玮,曹维孝.聚4-重氮基苯乙烯与聚苯乙烯磺酸钠的自组装[J].高分子学报,2003,(3):442-444
[47] 杨朝辉,曹廷炳,陈金玉,曹维孝.聚N-对羟苯基丙烯酰胺与重氮树脂的氢键自组装[J].高等学校化学学报,2002,23(2):342-344
[48] 曹维孝.光敏性聚电解质重氮树脂及其自组装[J].高分子通报,2002,(1):1-5
[49] 黄兰,顾倩颐,何元康,罗国宾,赵新生,曹维孝.含C60的聚电解质自组装膜微摩擦性能的研究[J].高等学校化学学报,2002,23(6):1193-1197
[50] 赵楠,鲁从华,曹维孝.重氮树脂基磁性超薄膜及其图形化[J].高分子学报,2004,(3):458-461
[51] 黄兰,黄飞,何元康,魏芳,赵新生,曹维孝.水溶性含C60聚电解质的制备及其与重氮树脂自组装膜AFMPFFM的初步研究[J].高分子学报,2002,(2):192-197
[52] Yongjun Zhang, Shuguang Yang, Ying Guan, Weixiao Cao, and Jian Xu.??Fabrication of Stable Hollow Capsules byCovalent Layer-by-Layer Self-Assembly[J]. Macromolecules, 2003, 36: 4238-4240
[53] Tingbing Cao, Shuming Yang, Yanlian Yang, Chunhui Huang, Weixiao Cao. Photoelectric Conversion Property of Covalent-Attached Multilayer Self-Assembled Films Fabricated from Diazoresin and Fullerol[J]. Langmuir, 2001, 17: 6034-6036
[54] Tingbing Cao, Fang Wei, Xiaoming Jiao, Jinyu Chen, Wei Liao, Xinsheng Zhao, Weixiao Cao. Micropatterns of Protein and Conducting Polymer Molecules Fabricated by Layer-by-Layer Self-Assembly and Photolithography Techniques[J]. Langmuir, 2003,19: 8127-8129
[55] Conghua Lu, Fang Wei, Nianzu Wu, Lan Huang, Xinsheng Zhao, Xiaoming Jiao, Chuanqiou Luo, Weixiao Cao. Au Nanoparticle Micropatterns Prepared from Self-Assembled Films[J]. Langmuir, 2004, 20: 974-977
[56] Jinyu Chen, Guobin Luo, Weixiao Cao. Fabrication of a Covalently Attached Multilayer Film via In-Situ Reaction[J]. Macromol. Rapid Commun., 2001, 22: 311-314
[57] Jinyu Chen, Hao Luo, Weixiao Cao. Interaction of diazoresins and sulfonate containing polyelectrolytes[J]. Polymer International, 2000,49: 382-386
[58] Yongjun Zhang, Weixiao Cao. Fabrication of an ESA Multilayer Film from a Diazo Resin by Direct Surface Charge Reversal[J]. Macromol. Rapid Commun., 2001,22:842-845
[59] Menard E, Lee K J, Khang D Y, et al. A printable form of silicon for high performance thin film transistors on plastic substrates [J]. Applied Physics Letters, 2004, 84(26): 5398-5400
[60] Yang. W. T., B. Ranby. Bulk surface photografting process and its applications. I. Reactions and kinetics[J]. J. Appl. Polym. Sci., 1996, 62: 533-543
[61] Yang. W. T., B. Ranby. Bulk surface photografting process and its applications. II. Principal factors affecting surface photografting[J]. J. Appl. Polym. Sci., 1996, 62: 545-555[62] 邢晓东,丁健,李杨,洪定一,徐爱丽,张欣.直纺型改性聚对苯二甲酰对苯二胺的研制[J]。合成树脂及塑料,1999,16(6):11-14
[63] 刘德山,谷文广,王晓工,王慧芬,王伟,周其庠。缩聚的溶剂体系对芳香—脂肪族共聚酰胺序列结构的影响[J].高分子学报,1995,(6):704-707
[64] Shiratori S S, Rubner M F. pH-dependent thickness behavior of sequentially adsorbed layers of weak polyelectrolytes[J]. Macromolecules, 2000, 33(11): 4213-4219
[65] Insung S. Choi and Robert Langer. Surface-Initiated Polymerization of L-Lactide: Coating of Solid Substrates with a Biodegradable Polymer[J]. Macromolecules, 2001, 34:5361-5363[1] 钟春英,彭蓉,彭建新,洪华珠.蛋白质芯片技术[J].生物技术通报,2004,(2):34-37
[2] Pavlickova P, Schneider E M, Hug H. Advances in recombinant antibody microarrays[J]. Clin Chim Acta, 2004, 343(1-2): 17-35
[3] Angenendt P, Glokler J, Mushy D, et al. Toward optimized antibody microarrays: a comparison of current microarray support materials[J]. Anal. Biochem., 2002, 309(2): 253-260
[4] 彭仁.用蛋白质芯片检测功能肽[J].食品科学,2005,26(8):545-546
[5] Thomas Kodadek. Protein microarrays: prospects and problems[J]. Chemistry and Biology, 2001, (8): 105-115
[6] Zammatteo N, Jeanmart L, Hamels S, et al. Comparison between different strategies of covalent atttachment of DNA to glass surfaces to build DNA microarrays[J]. Anal. Biochem., 2000, 280(1): 143-150
[7] 屈海云,王海涛,黄懿,陆豪杰,钟伟,孔继烈,等.有机玻璃微流控芯片表面的蛋白质固定化及应用研究[J].高等学校化学学报,2004,25,Suppl.59-60
[8] McCormick R. M., Nelson R. J., Alonso-Amigo M. G., Benvegnu D. J., Hooper H H. Microchannel Electrophoretic Separations of DNA in Injection-Molded Plastic Substrates[J]. Anal. Chem., 1997, 69(14): 2626-2630
[9] Henry A. C., Tutt T. J., Galloway M., Davidson Y. Y., McWhorter C. S., Soper S. A., McCarley R. L. Surface Modification of Poly(methyl methacrylate) Used in the Fabrication of Microanalytical Devices[J]. Anal. Chem., 2000, 72(21): 5331-5337
[10] 刘康栋,赵建龙。蛋白质芯片技术进展[J].中国生物工程杂志,2004,24(12):48-52
[11] MacBeath G, Schreiber S L. Printing proteins as microarrays for high-throughput function determination[J]. Science, 2000, 289:1760-1763
[12] Ziauddin M, Sabatini D M. Microarrays of cell expressing defined cDNAs[J]. Nature, 2001, 411:107-110
[13] Tempgn M F, Stoll D, Schrenk M, et al. Protein microarray technology[J]. Trends??Biotechnol., 2002, 20: 160-166
[14] Richard F. Taylor. Protein Immobilization Fundamentals and Applications[M]. New York: Marcel Dekker Inc. 1991,101-105
[15] Hiroshi Muramatsu, Jonathan M. Dicks, Eiichi Tamiya, Isao Karube. Piezoelectric crystal biosensor modified with protein A for determination of immunoglobulins[J]. Anal. Chem., 1987, 59(23): 2760-2763
[16] Peng Yang, Xuexia Zhang, Biao Yang, Hongchi Zhao, Jingchun Chen, and Wantai Yang. Facile Preparation of a Patterned, Aminated Polymer Surface by UV-Light-Induced Surface Aminolysis[J]. Advanced Functional Materials. 2005, 15(9): 1415-1425
[17] Paolo Facci, Dario Alliata, Laura Andolfi, Bernhard Schnyder, Rudiger Kotz. Formation and characterization of protein monolayers on oxygen-exposing surfaces by multiple-step self-chemisorption[J]. Surface Science, 2002, 504: 282-292
[18] Shiratori S S, Rubner M F. pH-dependent thickness behavior of sequentially adsorbed layers of weak polyelectrolytes[J]. Macromolecules, 2000, 33(11): 4213-4219[1] 潘祖仁.高分子化学[M].第二版.北京:化学工业出版社,1997.94
[2] 邓建平.醋酸乙烯酯(VAc)、马来酸酐(MAn)及VAc/MAn体系非均相接枝聚合反应的研究[D].北京:北京化工大学,2001
[3] John L. Lang, W. A. Pavelich, H. D. Clarey, Homopolymerization of Maleic Anhydride. I. Preparation of the Polymer[J]. Journal of Polymer Science: Part A, 1963, 1:1123-1136
[4] Ural Akbulut, Bilge Hacioglu. Electroinitiated Polymerization of Maleic Anhydride by Direct Electron Transfer[J]. Journal of Polymer Science: Part A. Polymer Chemistry, 1991, 29:219-224
[5] Nirmal K. Pattanayak, Bimbadhar Nayak. Electroinitiated polymerization of Maleic Anhydride[J]. Makromol. Chem., 1986, 187(6): 1337-1344
[6] Gaylord N G, Maiti S, Dixit S S. Donor-acceptor complex in copolymerization ⅩⅩⅩLⅩ. alternalting diene-dienophile copolymers. 6. Photosensitized copolymerization of conjugated dienes and MAH[J]. J. Macromol. Sci-Chem., 1972, A6(8): 1521-1532
[7] R. Vukovic, V. Kuresevic, D. Fles. Copolymerization of α-Phenylvinyl Alkyl Ethers and Maleic Anhydride[J]. Journal of Polymer Science: Polymer Chemistry Edition, 1977, 15:2981-2985
[8] Gaylord N G. Maiti S, Patnaik B K, Takahashi A. Donor-acceptor complexes in copolymerization ⅩⅩⅩⅥ. Altemalting diene-dienophile copolymers. 4. copolymerization of furan and 2-methylfuran with maleic anhydride[J]. J. Macromol. Sci-Chem., 1972, A6:1459-1480
[9] Butler G B, Badgett J T, Sharabashi M. Characterization of the CTC from furan and MAH and the alternalting copolymer[J]. J Macromol Sci-Chem, 1970, A4: 51-63
[10] Caze C, Loucheux C. Mechanism of the radical copolymerization of methyl methacrylate and MAH[J]. J Macromol Sci-Chem, 1978, A12(10): 1501-1512[11] Randy S. Frank, Jeffrey S. Downey, H. D. H. Stover. Synthesis of divinylbenzene-maleic anhydride microspheres using precipitation polymerization[J]. Journal of Polymer Science: Part A: Polymer Chemistry, 1998, 36:2223-2227
[12] Zakir M. O. RZAEV, Gi.ineri Akovali, Ulviye Salamova. Effects of Complex Formation and Cyclization in Radical Copolymerization of Allyl (metha)acrylates with Maleic Anhydride[J]. Journal of Polymer Science: Part A: Polymer Chemistry, 1998, 36:1501-1508
[13] Wen Zhou, Jianhua Dong, Kunyuan Qiu, Yen Wei. Preparation and Properties of Poly (styrene-co-maleic anhydride)/Silica Hybrid Materials by the in Situ Sol-Gel Process[J]. Journal of Polymer Science: Part A: Polymer Chemistry, 1998, 36: 1607-1613
[14] Cowie J M G. Altemalting Copolymers[M]. 1st edition. New York: Plenum Press, 1985.47
[15] Jian-Ping Deng, Wan-Tai Yang. Self-initiating performance ofmaleic anhydride on surface photografting polymerization[J]. Journal of Polymer Science Part A: Polymer Chemistry, 2001, 39(19): 3246-3249
[16] Deng Jian-Ping, Yang Wan-Tai, Ranby Bengt. Melt-photografting polymerization ofmaleic anhydride onto LDPE film[J]. Eur. Polym. J. 2002, 38:1449-1455
[17] Deng Jianping, Yang Wantai. Surface photografting polymerization of vinyl acetate, maleic anhydride, and their charge-transfer complex. Ⅳ. Maleic anhydride[J]. Journal of Applied Polymer Science, 2003, 87(14): 2318-2325
[18] Sarkar N., Bhattacharjee S., Sivaram S., Surface Functionalization of Poly(ethylene) with Succinic Anhydride: Preparation, Modification, and Characterization[J]. Langrnuir, 1997, 13(15): 4142-4149
[19] Evenson S. A., Fail C. A., Badyal J. P. S. Surface Esterification of Poly(Ethylene-alt-Maleic Anhydride) Copolymer[J]. J. Phys. Chem. B., 2000, 104(45): 10608-10611
[20] Pompe T., Zschoche S., Herold N., Salchert K., Gouzy M.-E, Sperling C., Werner??C. Maleic Anhydride Copolymers-A Versatile Platform for Molecular Biosurface Engineering[J]. Biomacromolecules, 2003, 4(4): 1072-1079
[21] Chang-Min Xing, Jian-Ping Deng, Wan-Tai Yang. Surface Functionalization of Polypropylene Film via UV-Induced Photografting of N-Vinylpyrrolidone/Maleic Anhydride Binary Monomers[J]. Macromolecular Chemistry and Physics. 2005, 206(11): 1106-1113
[22] 邢长民.马来酸酐电荷转移络合物体系表面接枝聚合研究及“自分散”聚合制备高分子微球[D].北京:北京化工大学,2005
[23] I. F.Volkova, M.Yu, G0rshkova, P.e. lvanov, L.L Stotskaya. New Scope for Synthesis of Divinyl Ether and Maleic Anhydride Copolymer with Narrow Molecular Mass Distribution[J]. Polym. Adv. Technol., 2002, 13:1067-1070
[24] Cowie J. M. G. Alternating copolymers[M]. 1st edition. New York: Plenum Press, 1985.
[25] 应圣康,余丰年。共聚合原理[M].北京:化学工业出版社,1984.
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