耐久性超疏水表面的研究进展
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摘要
介绍了超疏水表面的性质并指出目前超疏水表面存在耐久性的缺陷,阻碍了其实际应用和推广。对目前制备耐久性超疏水表面的研究进展进行了综述,列出了现今耐久性超疏水表面的应用,指出目前耐久性超疏水存在检测及标准不统一、理论支持不足、制备条件苛刻等问题,并就这些问题对未来耐久性超疏水研究做出了展望。
The properties of superhydrophobic materials were introduced,and the shortcomings of the current superhydrophobic surfaces were pointed out,which had great obstacles to practical application.The current research on the preparation of durable superhydrophobic surfaces and their progress were reviewed,and the applications of the current superhydrophobic surfaces were listed.It was pointed out that current durability of superhydrophobicity detection and standards were not uniform,and the theoretical support was insufficient.The preparation of harsh conditions and other issues,and prospects for future research on the durability of superhydrophobicity were also discussed.
The properties of superhydrophobic materials were introduced,and the shortcomings of the current superhydrophobic surfaces were pointed out,which had great obstacles to practical application.The current research on the preparation of durable superhydrophobic surfaces and their progress were reviewed,and the applications of the current superhydrophobic surfaces were listed.It was pointed out that current durability of superhydrophobicity detection and standards were not uniform,and the theoretical support was insufficient.The preparation of harsh conditions and other issues,and prospects for future research on the durability of superhydrophobicity were also discussed.
引文
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[41] Pasche S,Vrs J,Griesser H J,et al.Effects of ionic strength and surface charge on protein adsorption at PEGylated surfaces[J].The Journal of Physical Chemistry B,2005,109(37):17545-17552.
[42] Roach P,Farrar D,Perry C C.Surface tailoring for controlled protein adsorption:effect of topography at the nanometer scale and chemistry[J].Journal of the American Chemical Society,2006,128(12):3939.
[43] Koc Y,de Mello A J,Mchale G,et al.Nano-scale superhydrophobicity:suppression of protein adsorption and promotion of flow-induced detachment[J].Lab on A Chip,2008,8(4):582-586.
[44] Hasan J,Crawford R J,Ivanova E P.Antibacterial surfaces:the quest for a new generation of biomaterials[J].Trends in Biotechnology,2013,31(5):295-304.
[45] Jin C,Jiang Y,Niu T,et al.Cellulose-based material with amphiphobicity to inhibit bacterial adhesion by surface modification[J].Journal of Materials Chemistry,2012,22(25):12562-12567.
[46] Robertus J,Browne W R,Feringa B L.Dynamic control over cell adhesive properties using molecular-based surface engineering strategies[J].Chemical Society Reviews,2010,39(1):354-78.
[47] Parent C A,Devreotes P N.A Cell's sense of direction[J].Science,1999,284(5415):765-770.
[48] Song W,Mano J F.Interactions between cells or proteins and surfaces exhibiting extreme wettabilities[J].Soft Matter,2013,9(11):2985-2999.
[49] Si Y,Zhu H,Chen L,et al.A multifunctional transparent superhydrophobic gel nanocoating with self-healing properties[J].Chemical Communications,2015,51(94):16794-16797.
[2] Shi E,Li H,Yang L,et al.Colloidal anti-reflection coating improves graphene-silicon solar cells[J].Nano Letters,2013,13(4):1776-1781.
[3] Ellerbee A K,Phillips S T,Siegel A C,et al.Quantifying colorimetric assays in paper-based microfluidic devices by measuring the transmission of light through paper[J].Analytical Chemistry,2009,81(20):8447-8452.
[4] Lee J,Jha A K,Bose A,et al.Imaging new transient nanostructures using a microfluidic chip integrated with a controlled environment vitrification system for cryogenic transmission electron microscopy[J].Langmuir the Acs Journal of Surfaces &Colloids,2008,24(22):12738-12741.
[5] Wenzel R N.Resistance of solid surfaces to wetting by water[J].Ind Eng Chem,1936,28(8):988-994.
[6] Cassie A B D,Baxter S.Wettability of porous surfaces[J].Trans Faraday Soc,1944,40(1):546-551.
[7] 徐文华,张丽东,赵利,等.耐久性超疏水表面研究进展[J].化工进展,2012,31(10):2260-2264.
[8] Tian X,Verho T,Ras R H.Moving superhydrophobic surfaces toward real-world applications[J].Science,2016,352(6282):142.
[9] Wang F J,Lei S,Ou J F,et al.Superhydrophobic surfaces with excellent mechanical durability and easy repairability[J].Applied Surface Science,2013,276(3):397-400.
[10] Park S H,Cho E H,Sohn J,et al.Design of multi-functional dual hole patterned carbon nanotube composites with superhydrophobicity and durability[J].纳米研究(英文版),2013,6(6):389-398.
[11] Zhou X,Zhang Z,Xu X,et al.Robust and durable superhydrophobic cotton fabrics for oil/water separation[J].Acs Appl Mater Interfaces,2013,5(15):7208-7214.
[12] Yanagisawa T,Nakajima A,Sakai M,et al.Preparation and abrasion resistance of transparent super-hydrophobic coating by combining crater-like silica films with acicular boehmite powder[J].Materials Science &Engineering B,2009,161(1):36-39.
[13] Xiu Y,Liu Y,Balu B,et al.Robust superhydrophobic surfaces prepared with epoxy resin and silica nanoparticles[J].IEEE Transactions on Components Packaging &Manufacturing Technology,2012,2(3):395-401.
[14] Xue F,Jia D,Li Y,et al.Facile preparation of a mechanically robust superhydrophobic acrylic polyurethane coating[J].Journal of Materials Chemistry A,2015,3(26):13856-13863.
[15] Brown P S,Bhushan B.Durable,superoleophobic polymernanoparticle composite surfaces with re-entrant geometry via solvent-induced phase transformation[J].Scientific Reports,2016,6:21048.
[16] Brown P S,Bhushan B.Bioinspired,roughness-induced,water and oil super-philic and super-phobic coatings prepared by adaptable layer-by-layer technique[J].Sci Rep,2015,5:14030.
[17] Wu L,Zhang J,Li B,et al.Facile preparation of super durable superhydrophobic materials[J].Journal of Colloid &Interface Science,2014,432(20):31.
[18] Xue C H,Bai X,Jia S T.Robust,self-healing superhydrophobic fabrics prepared by one-step coating of PDMS and octadecylamine[J].Scientific Reports,2016,6:27262.
[19] Wang Y,Bhushan B.Wear-resistant and antismudge superoleophobic coating on polyethylene terephthalate substrate using SiO2nanoparticles[J].Acs Applied Materials &Interfaces,2015,7(1):743-55.
[20] Yokoi N,Manabe K,Tenjimbayashi M,et al.Optically transparent superhydrophobic surfaces with enhanced mechanical abrasion resistance enabled by mesh structure[J].ACS Applied Materials &Interfaces,2015,7(8):4809-4816.
[21] Wu D Y,Meure S,Solomon D.Self-healing polymeric materials:a review of recent developments[J].Progress in Polymer Science,2008,33(5):479-522.
[22] Yang Y,Urban M W.Self-healing polymeric materials[J].Chemical Society Reviews,2013,42(17):7446-7467.
[23] Chen D,He P,Yang H.Self-healing polymeric materials[J].Progress in Chemistry,2012,42(17):7446-7467.
[24] Chen C M,Yang S.Directed water shedding on high-aspect-ratio shape memory polymer micropillar arrays[J].Advanced Materials,2014,26(8):1283.
[25] Wei W,Salazar J,Vahabi H,et al.Metamorphic superomniphobic surfaces[J].Advanced Materials,2017,29(27):1700295.
[26] Chen K,Zhou S,Yang S,et al.Fabrication of all-water-based self-repairing superhydrophobic coatings based on UV-responsive microcapsules[J].Advanced Functional Materials,2015,25(7):1035-1041.
[27] Xue C H,Bai X,Jia S T.Robust,self-healing superhydrophobic fabrics prepared by one-step coating of PDMS and octadecylamine[J].Scientific Reports,2016,6:27262.
[28] Manna U,Lynn D M.Restoration of superhydrophobicity in crushed polymer films by treatment with water:self-healing and recovery of damaged topographic features aided by an unlikely source[J].Advanced Materials,2013,25(36):5104-5108.
[29] Qian Y,Chi L,Zhou W,et al.Fabrication of TiO2-modified polytetrafluoroethylene ultrafiltration membranes via plasmaenhanced surface graft pretreatment[J].Applied Surface Science,2016,360(Part B):749-757.
[30] Jiang T,Guo Z,Liu W.Biomimetic superoleophobic surfaces:focusing on their fabrication and applications[J].Journal of Materials Chemistry A,2015,3(5):1811-1827.
[31] Wang B,Liang W,Guo Z,et al.Biomimetic super-lyophobic and super-lyophilic materials applied for oil/water separation:a new strategy beyond nature[J].Chemical Society Reviews,2015,44(1):336.
[32] Kota A K,Kwon G,Choi W,et al.Hygro-responsive membranes for effective oil-water separation[J].Nature Communications,2012,3(48):1025.
[33] Kwon G,Post E,Tuteja A.Membranes with selective wettability for the separation of oil-water mixtures[J].Mrs Communications,2015,5(3):475-494.
[34] Xue Z,Wang S,Lin L,et al.A novel superhydrophilic and underwater superoleophobic hydrogel-coated mesh for oil/water separation[J].Advanced Materials,2011,23(37):4270.
[35] Wang Y,Lin F,Dong Y,et al.A multifunctional polymeric nanofilm with robust chemical performances for special wettability[J].Nanoscale,2016,8(9):5153-5161.
[36] Golovin K,Kobaku S P,Lee D H,et al.Designing durable icephobic surfaces[J].Science Advances,2016,2(3):e1501496.
[37] Wong T S,Kang S H,Tang S K Y,et al.Bioinspired self-repairing slippery surfaces with pressure-stable omniphobicity[J].Nature,2011,477(7365):443.
[38] Marmur A.Super-hydrophobicity fundamentals:implications to biofouling prevention[J].Biofouling,2006,22(2):107-115.
[39] Tsougeni K,Petrou P S,Papageorgiou D P,et al.Controlled protein adsorption on microfluidic channels with engineered roughness and wettability[J].Sensors &Actuators B Chemical,2012,161(1):216-222.
[40] Chen H,Zhang Z,Chen Y,et al.Protein repellant silicone surfaces by covalent immobilization of poly(ethylene oxide)[J].Biomaterials,2005,26(15):2391-2399.
[41] Pasche S,Vrs J,Griesser H J,et al.Effects of ionic strength and surface charge on protein adsorption at PEGylated surfaces[J].The Journal of Physical Chemistry B,2005,109(37):17545-17552.
[42] Roach P,Farrar D,Perry C C.Surface tailoring for controlled protein adsorption:effect of topography at the nanometer scale and chemistry[J].Journal of the American Chemical Society,2006,128(12):3939.
[43] Koc Y,de Mello A J,Mchale G,et al.Nano-scale superhydrophobicity:suppression of protein adsorption and promotion of flow-induced detachment[J].Lab on A Chip,2008,8(4):582-586.
[44] Hasan J,Crawford R J,Ivanova E P.Antibacterial surfaces:the quest for a new generation of biomaterials[J].Trends in Biotechnology,2013,31(5):295-304.
[45] Jin C,Jiang Y,Niu T,et al.Cellulose-based material with amphiphobicity to inhibit bacterial adhesion by surface modification[J].Journal of Materials Chemistry,2012,22(25):12562-12567.
[46] Robertus J,Browne W R,Feringa B L.Dynamic control over cell adhesive properties using molecular-based surface engineering strategies[J].Chemical Society Reviews,2010,39(1):354-78.
[47] Parent C A,Devreotes P N.A Cell's sense of direction[J].Science,1999,284(5415):765-770.
[48] Song W,Mano J F.Interactions between cells or proteins and surfaces exhibiting extreme wettabilities[J].Soft Matter,2013,9(11):2985-2999.
[49] Si Y,Zhu H,Chen L,et al.A multifunctional transparent superhydrophobic gel nanocoating with self-healing properties[J].Chemical Communications,2015,51(94):16794-16797.
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