The recent progress of wide bandgap donor polymers towards non-fullerene organic solar cells
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摘要
This review summarized the recent progress of highly efficient wide bandgap(WBG) donor polymers and their applications in non-fullerene polymer solar cells(NF-PSCs). A brief introduction of the background of WBG donor polymer developments was given. Then the research progress of the reported WBG donor polymers by classification of D-type and DààA type molecular backbones was reviewed. The resulting structure-property correlations of the WBG donor polymers were also discussed to highlight the importance of chemical modifications, which have promoted the great progress of NF-PSC field. Finally,an outlook for future innovations of WBG donor polymers and their NF-PSCs was provided.
This review summarized the recent progress of highly efficient wide bandgap(WBG) donor polymers and their applications in non-fullerene polymer solar cells(NF-PSCs). A brief introduction of the background of WBG donor polymer developments was given. Then the research progress of the reported WBG donor polymers by classification of D-type and DààA type molecular backbones was reviewed. The resulting structure-property correlations of the WBG donor polymers were also discussed to highlight the importance of chemical modifications, which have promoted the great progress of NF-PSC field. Finally,an outlook for future innovations of WBG donor polymers and their NF-PSCs was provided.
This review summarized the recent progress of highly efficient wide bandgap(WBG) donor polymers and their applications in non-fullerene polymer solar cells(NF-PSCs). A brief introduction of the background of WBG donor polymer developments was given. Then the research progress of the reported WBG donor polymers by classification of D-type and DààA type molecular backbones was reviewed. The resulting structure-property correlations of the WBG donor polymers were also discussed to highlight the importance of chemical modifications, which have promoted the great progress of NF-PSC field. Finally,an outlook for future innovations of WBG donor polymers and their NF-PSCs was provided.
引文
[1]H.W.Hu,P.C.Y.Chow,G.Y.Zhang,et al.,Acc.Chem.Res.50(2017)2519-2528.
[2]G.Y.Zhang,J.B.Zhao,P.C.Y.Chow,et al.,Chem.Rev.118(2018)3447-3507.
[3]Y.M.Sun,H.T.Fu,Z.H.Wang,Angew.Chem.Int.Ed.[278_TD$IF]58(2019)4442-4453.
[4]S.S.Li,L.Ye,W.C.Zhao,et al.,J.Am.Chem.Soc.140(2018)7159-7167.
[5]S.Q.Zhang,Y.P.Qin,J.Zhu,J.H.Hou,Adv.Mater.30(2018)1800868.
[6]H.Zhang,H.F.Yao,J.X.Hou,et al.,Adv.Mater.30(2018)1800613.
[7]B.Kan,H.R.Feng,H.F.Yao,et al.,Sci.China Chem.61(2018)1307-1313.
[8]X.P.Xu,Y.Li,M.M.Luo,Q.Peng,Chin.Chem.Lett.27(2016)1241-1249.
[9]S.S.Chen,S.M.Lee,J.Q.Xu,et al.,Energy Environ.Sci.11(2018)2569-2580.
[10]Y.H.Cai,L.J.Huo,Y.M.Sun,Adv.Mater.29(2017)1605437.
[11]J.B.Zhao,Y.K.Li,G.F.Yang,et al.,Nat.Energy 1(2016)15027.
[12]T.Liu,X.X.Pan,X.Y.Meng,et al.,Adv.Mater.29(2017)1604251.
[13]L.J.Liu,J.N.Pei,S.P.Wen,et al.,Macromol.Chem.Phys.214(2013)1836-1844.
[14]K.Feng,G.F.Yang,X.P.Xu,et al.,Adv.Energy Mater.8(2018)1602773.
[15]L.J.Huo,X.N.Xue,T.Liu,et al.,Chem.Mater.30(2018)3294-3300.
[16]T.Liu,L.J.Huo,S.Chandrabose,et al.,Adv.Mater.30(2018)1707353.
[17]I.Fraga Domínguez,A.Distler,L.Lüer,Adv.Energy Mater.7(2017)1601320.
[18]F.G.Shen,J.Z.Xu,X.M.Li,C.L.Zhan,J.Mater.Chem.A 6(2018)15433-15455.
[19]J.H.Hou,Z.A.Tan,Y.Yan,et al.,J.Am.Chem.Soc.128(2006)4911-4916.
[20]X.Guo,M.J.Zhang,C.H.Cui,J.H.Hou,Y.F.Li,ACS Appl.Mater.Interfaces 6(2014)8190-8198.
[21]M.T.Dang,L.Hirsch,G.Wantz,Adv.Mater.23(2011)3597-3602.
[22]X.Guo,C.H.Cui,M.J.Zhang,et al.,Energy Environ.Sci.5(2012)7943-7949.
[23]G.J.Zhao,Y.J.He,Y.F.Li,Adv.Mater.22(2010)4355-4358.
[24]S.X.Li,W.Q.Liu,M.M.Shi,et al.,Energy Environ.Sci.9(2016)604-610.
[25]B.Xiao,A.L.Tang,J.Yang,Z.X.Wei,E.J.Zhou,ACS Macro Lett.6(2017)410-414.
[26]S.Holliday,R.S.Ashraf,A.Wadsworth,et al.,Nat.Commun.7(2016)11585.
[27]D.Baran,R.S.Ashraf,D.A.Hanifi,et al.,Nat.Mater.16(2016)363.
[28]J.H.Hou,L.J.Huo,C.He,C.H.Yang,Y.F.Li,Macromolecules 39(2006)594-603.
[29]M.J.Zhang,X.Guo,W.Ma,H.Ade,J.H.Hou,Adv.Mater.26(2014)5880-5885.
[30]C.G.Park,G.E.Park,J.H.Lee,et al.,Polymer 146(2018)142-150.
[31]X.X.Liao,X.G.Zhao,Z.G.Zhang,et al.,Sol.Energy Mater.Sol.C 117(2013)336-342.
[32]P.P.Khlyabich,A.E.Rudenko,B.C.Thompson,J.Polym.Sci.,Part.A:Polym.Chem.52(2014)1055-1058.
[33]X.E.Jia,Z.M.Chen,C.H.Duan,et al.,J.Mater.Chem.C[279_TD$IF]7(2019)314-323.
[34]H.Zhang,S.S.Li,B.W.Xu,et al.,J.Mater.Chem.A 4(2016)18043-18049.
[35]Y.Qin,M.A.Uddin,Y.Chen,et al.,Adv.Mater.28(2016)9416-9422.
[36]J.Hou,M.H.Park,S.Zhang,et al.,Macromolecules 41(2008)6012-6018.
[37]H.F.Yao,L.Ye,H.Zhang,et al.,Chem.Rev.116(2016)7397-7457.
[38]T.E.Kang,T.Kim,C.Wang,S.Yoo,B.J.Kim,Chem.Mater.27(2015)2653-2658.
[39]J.H.Kim,J.B.Park,S.C.Yoon,I.H.Jung,D.H.Hwang,J,.Mater.Chem.C 4(2016)2170-2177.
[40]G.D.Li,Q.Q.Xu,C.M.Chang,et al.,Macromol.Rapid Commun.39(2018)1800660.
[41]D.Hao,M.Li,Y.H.Liu,C.H.Li,Z.S.Bo,Dyes Pigments 162(2019)120-125.
[42]Y.K.An,X.F.Liao,L.Chen,et al.,Adv.Funct.Mater.28(2018)1706517.
[43]X.F.Liao,Z.Y.Yao,K.Gao,et al.,Adv.Energy Mater.8(2018)1801214.
[44]M.J.Cho,J.Seo,K.H.Kim,D.H.Choi,P.N.Prasad,Macromol.Rapid Commun.33(2012)146-151.
[45]M.J.Cho,J.Seo,K.Luo,et al.,Polymer 53(2012)3835-3841.
[46]J.Wolf,F.Cruciani,A.El Labban,P.M.Beaujuge,Chem.Mater.27(2015)4184-4187.
[47]Y.Firdaus,L.P.Maffei,F.Cruciani,et al.,Adv.Energy Mater.7(2017)1700834.
[48]G.E.Park,S.Choi,S.Y.Park,et al.,Adv.Energy Mater.7(2017)1700566.
[49]Y.H.Liu,H.Lu,M.Li,et al.,Macromolecules 51(2018)8646-8651.
[50]D.D.Xia,Y.Wu,Q.Wang,et al.,Macromolecules 49(2016)6445-6454.
[51]R.Kong,Z.Xiao,F.Y.Xie,J.X.Jiang,L.M.Ding,New.J.Chem.41(2017)2895-2898.
[52]D.L.Liu,B.Yang,B.Jang,et al.,Energy Environ.Sci.10(2017)546-551.
[53]X.J.Zhang,J.V.Zhang,H.Lu,et al.,J.Mater.Chem.C 3(2015)6979-6985.
[54]J.C.Zhang,H.M.Xiao,X.J.Zhang,et al.,J.Mater.Chem.C 4(2016)5656-5663.
[55]H.F.Yao,R.N.Yu,T.J.Shin,et al.,Adv.Energy Mater.6(2016)1600742.
[56]H.Yang,Y.Wu,Y.Zou,et al.,J.Mater.Chem.A 6(2018)14700-14708.
[57]H.Lu,M.Li,Z.Z.Bi,et al.,Org.Electron.65(2019)419-425.
[58]X.Gong,S.Y.Feng,G.W.Li,et al.,Dyes Pigments 141(2017)342-347.
[59]Y.H.Liu,S.S.Chen,G.Y.Zhang,P.C.Y.Chow,H.Yan,J.Mater.Chem.A 5(2017)15017-15020.
[60]S.S.Chen,H.T.Yao,Z.K.Li,et al.,Adv.Energy Mater.7(2017)1602304.
[61]H.Y.Jiang,Z.Wang,L.J.Zhang,et al.,ACS Appl.Mater.Interfaces 9(2017)36061-36069.
[62]D.S.Tang,J.H.Wan,X.P.Xu,et al.,Nano Energy 53(2018)258-269.
[63]M.Deng,X.P.Xu,Y.W.Lee,et al.,ACS Appl.Mater.Interfaces[280_TD$IF]11(2019)3308-3316.
[64]H.J.Bin,L.Zhong,Z.G.Zhang,et al.,Sci.China Chem.59(2016)1317-1322.
[65]T.H.Yan,H.J.Bin,C.K.Sun,Z.G.Zhang,Y.F.Li,Org.Electron.55(2018)106-111.
[66]T.H.Yan,H.J.Bin,C.K.Sun,Z.G.Zhang,Y.F.Li,Org.Electron.57(2018)255-262.
[67]L.Gao,Z.G.Zhang,L.W.Xue,et al.,Adv.Mater.28(2016)1884-1890.
[68]L.Gao,Z.G.Zhang,H.J.Bin,et al.,Adv.Mater.28(2016)8288-8295.
[69]Y.X.Li,L.Zhong,F.P.Wu,et al.,Energy Environ.Sci.9(2016)3429-3435.
[70]H.J.Bin,Z.G.Zhang,L.Gao,et al.,J.Am.Chem.Soc.138(2016)4657-4664.
[71]R.N.Yu,S.Q.Zhang,H.F.Yao,et al.,Adv.Mater.29(2017)1700437.
[72]Q.P.Fan,W.Y.Su,X.Y.Meng,et al.,Sol.RRL 1(2017)1700020.
[73]Q.P.Fan,W.Y.Su,X.Guo,et al.,J.Mater.Chem.A 5(2017)9204-9209.
[74]W.Y.Su,G.W.Li,Q.P.Fan,et al.,J.Mater.Chem.A[281_TD$IF]7(2018)2351-2359.
[75]Y.K.Yang,Z.G.Zhang,H.J.Bin,et al.,J.Am.Chem.Soc.138(2016)15011-15018.
[76]H.Huang,H.J.Bin,Z.X.Peng,et al.,Macromolecules 51(2018)6028-6036.
[77]H.J.Bin,L.Gao,Z.G.Zhang,et al.,Nat.Commun.7(2016)13651.
[78]H.J.Bin,Y.K.Yang,Z.X.Peng,et al.,Adv.Energy Mater.8(2018)1702324.
[79]H.J.Bin,L.Zhong,Y.K.Yang,et al.,Adv.Energy Mater.7(2017)1700746.
[80]L.W.Xue,Y.K.Yang,J.Q.Xu,et al.,Adv.Mater.29(2017)1703344.
[81]W.R.Liu,J.Y.Zhang,Z.C.Zhou,et al.,Adv.Mater.30(2018)1800403.
[82]B.B.Fan,P.Zhu,J.M.Xin,et al.,Adv.Energy Mater.8(2018)1703085.
[83]Z.Liu,D.Y.Liu,K.L.Zhang,et al.,J.Mater.Chem.A 5(2017)21650-21657.
[84]D.Y.Liu,K.L.Zhang,Y.Q.Zhong,et al.,J.Mater.Chem.A 6(2018)18125-18132.
[85]Y.Q.Zhong,D.Y.Liu,K.L.Zhang,et al.,J.Polym.Sci.,Part.A:Polym.Chem.56(2018)2762-2770.
[86]S.S.Chen,Y.H.Liu,L.Zhang,et al.,J.Am.Chem.Soc.139(2017)6298-6301.
[87]K.Feng,J.Yuan,Z.Z.Bi,et al.,iScience[28_TD$IF]1(2019)1-12.
[88]A.L.Tang,B.Xiao,F.Chen,et al.,Adv.Energy Mater.8(2018)1801582.
[89]W.Y.Su,Y.Meng,X.Guo,et al.,J.Mater.Chem.A 6(2018)16403-16411.
[90]W.C.Zhao,S.Q.Zhang,Y.Zhang,et al.,Adv.Mater.30(2018)1704837.
[91]Z.T.Liu,Y.R.Gao,J.Dong,et al.,J.Phys.Chem.Lett.9(2018)6955-6962.
[92]S.J.Liu,Y.Firdaus,S.Thomas,et al.,Angew.Chem.Int.Ed.57(2018)531-535.
[93]N.Bauer,Q.Q.Zhang,J.S.Zhu,et al.,J.Mater.Chem.A 5(2017)22536-22541.
[94]Y.Z.Lin,F.W.Zhao,S.K.K.Prasad,et al.,Adv.Mater.30(2018)1706363.
[95]N.Bauer,Q.Q.Zhang,J.B.Zhao,et al.,J.Mater.Chem.A 5(2017)4886-4893.
[96]Y.Y.Gao,Z.Wang,J.Q.Zhang,et al.,Macromolecules 51(2018)2498-2505.
[97]Z.J.Li,X.P.Xu,G.J.Zhang,et al.,Sol.RRL 2(2018)1800186.
[98]Y.Y.Gao,Z.Wang,J.Q.Zhang,et al.,J.Mater.Chem.A 6(2018)4023-4031.
[99]Y.Y.Gao,R.X.Zhu,Z.Wang,et al.,ACS Appl.Energy Mater.1(2018)1888-1892.
[100]W.B.Li,G.D.Li,X.Guo,et al.,J.Mater.Chem.A 5(2017)19680-19686.
[101]Z.J.Li,X.F.Xu,W.Zhang,et al.,Energy Environ.Sci.10(2017)2212-2221.
[102]W.K.Zhong,J.Cui,B.B.Fan,et al.,Chem.Mater.29(2017)8177-8186.
[103]X.Liu,C.Zhang,C.Duan,et al.,J.Am.Chem.Soc.140(2018)8934-8943.
[104]W.Huang,M.L.Li,F.Y.Lin,et al.,Mol.Syst.Des.Eng.3(2018)103-112.
[105]W.C.Chen,H.X.Jiang,G.Y.Huang,et al.,Sol.RRL 2(2018)1800101.
[106]W.B.Li,G.D.Li,X.Guo,et al.,J.Mater.Chem.A 6(2018)6551-6558.
[107]S.G.Wen,W.C.Chen,G.Y.Huang,et al.,J.Mater.Chem.C 6(2018)1753-1758.
[108]W.C.Chen,G.Y.Huang,X.M.Li,et al.,ACS Appl.Mater.Interfaces 10(2018)42747-42755.
[109]Z.Y.Li,B.B.Fan,B.T.He,et al.,Sci.China Chem.61(2018)427-436.
[110]C.Weng,W.G.Wang,J.T.Liang,et al.,J.Polym.Sci.,Part.A:Polym.Chem.56(2018)2330-2343.
[111]Y.Zou,Y.Y.Dong,Y.Wu,et al.,Org.Electron.63(2018)289-295.
[112]M.He,W.L.Li,H.K.Tian,et al.,Org.Electron.65(2019)31-38.
[113]H.R.Lin,S.S.Chen,Z.K.Li,et al.,Adv.Mater.27(2015)7299-7304.
[114]J.Liu,L.K.Ma,Z.K.Li,et al.,J.Mater.Chem.A 5(2017)22480-22488.
[115]H.W.Hu,K.Jiang,P.C.Y.Chow,et al.,Adv.Energy Mater.8(2018)1701674.
[116]Y.K.An,X.F.Liao,L.Chen,et al.,Sol.RRL 2(2018)1800291.
[117]D.P.Qian,L.Ye,M.J.Zhang,et al.,Macromolecules 45(2012)9611-9617.
[118]L.Ye,W.Jiang,W.C.Zhao,et al.,Small 10(2014)4658-4663.
[119]W.C.Zhao,D.P.Qian,S.Q.Zhang,et al.,Adv.Mater.28(2016)4734-4739.
[120]X.H.Liu,Y.Zou,H.Q.Wang,et al.,ACS Appl.Mater.Interfaces 10(2018)38302-38309.
[121]Z.G.Zhang,Y.Yang,J.Yao,et al.,Angew.Chem.Int.Ed.56(2017)13503-13507.
[122]Y.Wu,Y.Zou,H.Yang,et al.,ACS Appl.Mater.Interfaces 9(2017)37078-37086.
[123]Z.P.Fei,F.D.Eisner,X.C.Jiao,et al.,Adv.Mater.30(2018)1705209.
[124]Y.N.Wu,C.B.An,L.B.Shi,et al.,Angew.Chem.Int.Ed.57(2018)12911-12915.
[125]Y.Wu,H.Yang,Y.Zou,et al.,Sol.RRL 2(2018)1800060.
[126]L.L.Ye,Y.P.Xie,K.K.Weng,et al.,Nano Energy 58(2019)220-226.
[127]Y.Wang,Q.P.Fan,X.Guo,et al.,J.Mater.Chem.A 5(2017)22180-22185.
[128]Q.P.Fan,Y.Wang,M.J.Zhang,et al.,Adv.Mater.30(2018)1704546.
[129]S.S.Li,L.Ye,W.C.Zhao,et al.,Adv.Mater.29(2017)1704051.
[130]Q.P.Fan,W.Y.Su,Y.Wang,et al.,Sci.China Chem.61(2018)531-537.
[131]Z.Zheng,Q.Hu,S.Q.Zhang,et al.,Adv.Mater.(2018)1801801.
[132]T.Liu,Z.H.Luo,Q.P.Fan,et al.,Energy Environ.Sci.11(2018)3275-3282.
[133]J.L.Wang,K.K.Liu,L.Hong,et al.,ACS Energy Lett.3(2018)2967-2976.
[134]Q.P.Fan,Q.L.Zhu,Z.Xu,et al.,Nano Energy 48(2018)413-420.
[135]J.Yuan,Y.Q.Zhang,L.Y.Zhou,et al.,Joule[283_TD$IF]3(2019)1140-1151.
[136]H.T.Yao,F.J.Bai,H.W.Hu,et al.,ACS Energy Lett.4(2019)417-422.
[137]W.C.Zhao,S.S.Li,H.F.Yao,et al.,J.Am.Chem.Soc.139(2017)7148-7151.
[138]Y.Cui,S.Q.Zhang,N.N.Liang,et al.,Adv.Mater.(2018)1802499.
[139]T.Rehman,Z.X.Liu,T.K.Lau,et al.,ACS Appl.Mater.Interfaces(2018),doi:http://dx.doi.org/10.1021/acsami.1028b16628.
[140]Q.P.Fan,Z.Xu,X.Guo,et al.,Nano Energy 40(2017)20-26.
[141]X.N.Xue,K.K.Weng,F.Qi,et al.,Adv.Energy Mater.(2018)1802686.
[142]W.B.Li,G.D.Li,H.Guo,et al.,J.Mater.Chem.A[284_TD$IF]7(2019)1307-1314.
[143]Y.P.Qin,L.Ye,S.Q.Zhang,et al.,J.Mater.Chem.A 6(2018)4324-4330.
[144]Y.H.Li,D.Y.Liu,J.Y.Wang,et al.,Chem.Mater.29(2017)8249-8257.
[145]Y.H.Li,L.R.Duan,D.Y.Liu,et al.,J.Mater.Chem.C 6(2018)2806-2813.
[146]D.Y.Liu,J.Y.Wang,C.Y.Gu,et al.,Adv.Mater.30(2018)1705870.
[147]M.H.Hoang,G.E.Park,S.Choi,et al.,J.Mater.Chem.C[285_TD$IF]7(2019)111-118.
[148]J.Y.Kim,S.Park,S.Lee,et al.,Adv.Energy Mater.(2018)1801601.
[149]L.J.Huo,T.Liu,X.B.Sun,et al.,Adv.Mater.27(2015)2938-2944.
[150]D.Sun,D.Meng,Y.H.Cai,et al.,J.Am.Chem.Soc.137(2015)11156-11162.
[151]D.Meng,D.Sun,C.M.Zhong,et al.,J.Am.Chem.Soc.138(2016)375-380.
[152]Y.Z.Lin,Q.He,F.W.Zhao,et al.,J.Am.Chem.Soc.138(2016)2973-2976.
[153]Y.Z.Lin,F.W.Zhao,Q.He,et al.,J.Am.Chem.Soc.138(2016)4955-4961.
[154]W.T.Xiong,X.Y.Meng,T.Liu,et al.,Org.Electron.50(2017)376-383.
[155]K.K.Dou,X.C.Wang,Z.R.Du,et al.,J.Mater.Chem.A[286_TD$IF]7(2018)958-964.
[156]T.Liu,D.Meng,Y.H.Cai,et al.,Adv.Sci.3(2016)1600117.
[157]J.Y.Yuan,W.L.Ma,J.Mater.Chem.A 3(2015)7077-7085.
[158]T.Kim,J.H.Kim,T.E.Kang,et al.,Nat.Commun.6(2015)8547.
[159]C.Lee,T.Giridhar,J.Choi,et al.,Chem.Mater.29(2017)9407-9415.
[160]M.A.Uddin,Y.Kim,R.Younts,et al.,Macromolecules 49(2016)6374-6383.
[161]J.Y.Yuan,W.P.Guo,Y.X.Xia,et al.,Nano Energy 35(2017)251-262.
[162]G.Q.Ding,J.Y.Yuan,F.Jin,et al.,Nano Energy 36(2017)356-365.
[163]X.F.Xu,Z.J.Li,W.Zhang,et al.,Adv.Energy Mater.8(2018)1700908.
[164]T.Zhang,W.H.Feng,W.Wang,et al.,J.Mater.Chem.C 6(2018)8418-8428.
[165]J.Oh,K.Kranthiraja,C.Lee,et al.,Adv.Mater.28(2016)10016-10023.
[166]A.Kim,C.G.Park,S.H.Park,et al.,J.Mater.Chem.A 6(2018)10095-10103.
[167]F.Yang,D.P.Qian,A.H.Balawi,et al.,Phys.Chem.Chem.Phys.19(2017)23990-23998.
[168]W.T.Hadmojo,F.T.A.Wibowo,D.Y.Ryu,I.H.Jung,S.Y.Jang,ACS Appl.Mater.Interfaces 9(2017)32939-32945.
[169]F.Y.Lin,W.Huang,H.T.Sun,et al.,Chem.Mater.29(2017)5636-5645.
[170]Y.Xie,W.Huang,Q.B.Liang,et al.,ACS Energy Lett.(2019)4-16.
[171]J.Zhang,G.Y.Huang,H.Tan,et al.,Polymer 145(2018)108-116.
[172]Y.J.Guo,M.Li,Y.Y.Zhou,et al.,Macromolecules 50(2017)7984-7992.
[173]L.Y.Lan,Z.M.Chen,Q.Hu,et al.,Adv.Sci.3(2016)1600032.
[174]B.B.Fan,L.Ying,Z.F.Wang,et al.,Energy Environ.Sci.10(2017)1243-1251.
[175]B.B.Fan,K.Zhang,X.F.Jiang,et al.,Adv.Mater.29(2017)1606396.
[176]P.Zhu,B.B.Fan,X.Y.Du,et al.,ACS Appl.Mater.Interfaces 10(2018)22495-22503.
[177]K.Li,Z.C.Hu,Z.M.Y.Zeng,et al.,Org.Electron.57(2018)317-322.
[178]B.B.Fan,X.Y.Du,F.Liu,et al.,Nat.Energy 3(2018)1051-1058.
[179]J.Yuan,L.X.Qiu,Z.G.Zhang,et al.,Nano Energy 30(2016)312-320.
[180]C.K.Sun,F.Pan,H.J.Bin,et al.,Nat.Commun.9(2018)743.
[181]J.Yang,M.A.Uddin,Y.M.Tang,et al.,ACS Appl.Mater.Interfaces 10(2018)23235-23246.
[182]T.Yu,X.P.Xu,G.J.Zhang,et al.,Adv.Funct.Mater.27(2017)1701491.
[183]S.Subramaniyan,H.Xin,F.S.Kim,et al.,Adv.Energy Mater.1(2011)854-860.
[184]T.Earmme,Y.J.Hwang,N.M.Murari,S.Subramaniyan,S.A.Jenekhe,J.Am.Chem.Soc.135(2013)14960-14963.
[185]T.Earmme,Y.J.Hwang,S.Subramaniyan,S.A.Jenekhe,Adv.Mater.26(2014)6080-6085.
[186]Y.J.Hwang,H.Y.Li,B.A.E.Courtright,S.Subramaniyan,S.A.Jenekhe,Adv.Mater.28(2016)124-131.
[187]K.Zhao,Q.Wang,B.W.Xu,et al.,J.Mater.Chem.A 4(2016)9511-9518.
[188]B.Guo,W.B.Li,X.Guo,et al.,Adv.Mater.29(2017)1702291.
[189]Y.D.Zhang,X.Guo,B.Guo,et al.,Adv.Funct.Mater.27(2017)1603892.
[190]W.Y.Su,Q.P.Fan,X.Guo,et al.,Nano Energy 38(2017)510-517.
[191]B.F.Zhao,W.P.Wang,J.M.Xin,et al.,ACS Sustain.Chem.Eng.6(2018)2177-2187.
[192]X.Guo,W.B.Li,H.Guo,et al.,J.Mater.Chem.A 6(2018)16529-16536.
[193]S.G.Wen,Y.Li,T.Rath,et al.,Chem.Mater.[287_TD$IF]31(2019)919-926.
[194]B.Guo,W.B.Li,X.Guo,et al.,Nano Energy 34(2017)556-561.
[195]S.R.Huang,L.Chen,Z.H.Liao,et al.,Org.Electron.64(2019)110-116.
[196]X.P.Xu,T.Yu,Z.Z.Bi,et al.,Adv.Mater.30(2018)1703973.
[197]S.C.Wang,Z.J.Li,X.P.Xu,et al.,J.Mater.Chem.A[28_TD$IF]436(2018)22503-22507.
[198]X.P.Xu,Z.J.Li,Z.Z.Bi,et al.,Adv.Mater.30(2018)1800737.
[199]T.Zhang,G.Zeng,F.Ye,X.L.Zhao,X.N.Yang,Adv.Energy Mater.8(2018)1801387.
[200]Z.Li,D.L.Yang,T.Zhang,et al.,Small 14(2018)1704491.
[201]J.W.Yu,J.Yang,X.Zhou,et al.,Macromolecules 50(2017)8928-8937.
[202]P.L.Gao,J.F.Tong,P.Z.Guo,et al.,J.Polym.Sci.,Part.A:Polym.Chem.56(2018)85-95.
[203]S.S.Chen,H.J.Cho,J.Lee,et al.,Adv.Energy Mater.7(2017)1701125.
[204]V.Tamilavan,J.Lee,R.Agneeswari,et al.,Org.Electron.63(2018)78-85.
[205]B.Yang,S.Q.Zhang,Y.Chen,et al.,Macromolecules 50(2017)1453-1462.
[2]G.Y.Zhang,J.B.Zhao,P.C.Y.Chow,et al.,Chem.Rev.118(2018)3447-3507.
[3]Y.M.Sun,H.T.Fu,Z.H.Wang,Angew.Chem.Int.Ed.[278_TD$IF]58(2019)4442-4453.
[4]S.S.Li,L.Ye,W.C.Zhao,et al.,J.Am.Chem.Soc.140(2018)7159-7167.
[5]S.Q.Zhang,Y.P.Qin,J.Zhu,J.H.Hou,Adv.Mater.30(2018)1800868.
[6]H.Zhang,H.F.Yao,J.X.Hou,et al.,Adv.Mater.30(2018)1800613.
[7]B.Kan,H.R.Feng,H.F.Yao,et al.,Sci.China Chem.61(2018)1307-1313.
[8]X.P.Xu,Y.Li,M.M.Luo,Q.Peng,Chin.Chem.Lett.27(2016)1241-1249.
[9]S.S.Chen,S.M.Lee,J.Q.Xu,et al.,Energy Environ.Sci.11(2018)2569-2580.
[10]Y.H.Cai,L.J.Huo,Y.M.Sun,Adv.Mater.29(2017)1605437.
[11]J.B.Zhao,Y.K.Li,G.F.Yang,et al.,Nat.Energy 1(2016)15027.
[12]T.Liu,X.X.Pan,X.Y.Meng,et al.,Adv.Mater.29(2017)1604251.
[13]L.J.Liu,J.N.Pei,S.P.Wen,et al.,Macromol.Chem.Phys.214(2013)1836-1844.
[14]K.Feng,G.F.Yang,X.P.Xu,et al.,Adv.Energy Mater.8(2018)1602773.
[15]L.J.Huo,X.N.Xue,T.Liu,et al.,Chem.Mater.30(2018)3294-3300.
[16]T.Liu,L.J.Huo,S.Chandrabose,et al.,Adv.Mater.30(2018)1707353.
[17]I.Fraga Domínguez,A.Distler,L.Lüer,Adv.Energy Mater.7(2017)1601320.
[18]F.G.Shen,J.Z.Xu,X.M.Li,C.L.Zhan,J.Mater.Chem.A 6(2018)15433-15455.
[19]J.H.Hou,Z.A.Tan,Y.Yan,et al.,J.Am.Chem.Soc.128(2006)4911-4916.
[20]X.Guo,M.J.Zhang,C.H.Cui,J.H.Hou,Y.F.Li,ACS Appl.Mater.Interfaces 6(2014)8190-8198.
[21]M.T.Dang,L.Hirsch,G.Wantz,Adv.Mater.23(2011)3597-3602.
[22]X.Guo,C.H.Cui,M.J.Zhang,et al.,Energy Environ.Sci.5(2012)7943-7949.
[23]G.J.Zhao,Y.J.He,Y.F.Li,Adv.Mater.22(2010)4355-4358.
[24]S.X.Li,W.Q.Liu,M.M.Shi,et al.,Energy Environ.Sci.9(2016)604-610.
[25]B.Xiao,A.L.Tang,J.Yang,Z.X.Wei,E.J.Zhou,ACS Macro Lett.6(2017)410-414.
[26]S.Holliday,R.S.Ashraf,A.Wadsworth,et al.,Nat.Commun.7(2016)11585.
[27]D.Baran,R.S.Ashraf,D.A.Hanifi,et al.,Nat.Mater.16(2016)363.
[28]J.H.Hou,L.J.Huo,C.He,C.H.Yang,Y.F.Li,Macromolecules 39(2006)594-603.
[29]M.J.Zhang,X.Guo,W.Ma,H.Ade,J.H.Hou,Adv.Mater.26(2014)5880-5885.
[30]C.G.Park,G.E.Park,J.H.Lee,et al.,Polymer 146(2018)142-150.
[31]X.X.Liao,X.G.Zhao,Z.G.Zhang,et al.,Sol.Energy Mater.Sol.C 117(2013)336-342.
[32]P.P.Khlyabich,A.E.Rudenko,B.C.Thompson,J.Polym.Sci.,Part.A:Polym.Chem.52(2014)1055-1058.
[33]X.E.Jia,Z.M.Chen,C.H.Duan,et al.,J.Mater.Chem.C[279_TD$IF]7(2019)314-323.
[34]H.Zhang,S.S.Li,B.W.Xu,et al.,J.Mater.Chem.A 4(2016)18043-18049.
[35]Y.Qin,M.A.Uddin,Y.Chen,et al.,Adv.Mater.28(2016)9416-9422.
[36]J.Hou,M.H.Park,S.Zhang,et al.,Macromolecules 41(2008)6012-6018.
[37]H.F.Yao,L.Ye,H.Zhang,et al.,Chem.Rev.116(2016)7397-7457.
[38]T.E.Kang,T.Kim,C.Wang,S.Yoo,B.J.Kim,Chem.Mater.27(2015)2653-2658.
[39]J.H.Kim,J.B.Park,S.C.Yoon,I.H.Jung,D.H.Hwang,J,.Mater.Chem.C 4(2016)2170-2177.
[40]G.D.Li,Q.Q.Xu,C.M.Chang,et al.,Macromol.Rapid Commun.39(2018)1800660.
[41]D.Hao,M.Li,Y.H.Liu,C.H.Li,Z.S.Bo,Dyes Pigments 162(2019)120-125.
[42]Y.K.An,X.F.Liao,L.Chen,et al.,Adv.Funct.Mater.28(2018)1706517.
[43]X.F.Liao,Z.Y.Yao,K.Gao,et al.,Adv.Energy Mater.8(2018)1801214.
[44]M.J.Cho,J.Seo,K.H.Kim,D.H.Choi,P.N.Prasad,Macromol.Rapid Commun.33(2012)146-151.
[45]M.J.Cho,J.Seo,K.Luo,et al.,Polymer 53(2012)3835-3841.
[46]J.Wolf,F.Cruciani,A.El Labban,P.M.Beaujuge,Chem.Mater.27(2015)4184-4187.
[47]Y.Firdaus,L.P.Maffei,F.Cruciani,et al.,Adv.Energy Mater.7(2017)1700834.
[48]G.E.Park,S.Choi,S.Y.Park,et al.,Adv.Energy Mater.7(2017)1700566.
[49]Y.H.Liu,H.Lu,M.Li,et al.,Macromolecules 51(2018)8646-8651.
[50]D.D.Xia,Y.Wu,Q.Wang,et al.,Macromolecules 49(2016)6445-6454.
[51]R.Kong,Z.Xiao,F.Y.Xie,J.X.Jiang,L.M.Ding,New.J.Chem.41(2017)2895-2898.
[52]D.L.Liu,B.Yang,B.Jang,et al.,Energy Environ.Sci.10(2017)546-551.
[53]X.J.Zhang,J.V.Zhang,H.Lu,et al.,J.Mater.Chem.C 3(2015)6979-6985.
[54]J.C.Zhang,H.M.Xiao,X.J.Zhang,et al.,J.Mater.Chem.C 4(2016)5656-5663.
[55]H.F.Yao,R.N.Yu,T.J.Shin,et al.,Adv.Energy Mater.6(2016)1600742.
[56]H.Yang,Y.Wu,Y.Zou,et al.,J.Mater.Chem.A 6(2018)14700-14708.
[57]H.Lu,M.Li,Z.Z.Bi,et al.,Org.Electron.65(2019)419-425.
[58]X.Gong,S.Y.Feng,G.W.Li,et al.,Dyes Pigments 141(2017)342-347.
[59]Y.H.Liu,S.S.Chen,G.Y.Zhang,P.C.Y.Chow,H.Yan,J.Mater.Chem.A 5(2017)15017-15020.
[60]S.S.Chen,H.T.Yao,Z.K.Li,et al.,Adv.Energy Mater.7(2017)1602304.
[61]H.Y.Jiang,Z.Wang,L.J.Zhang,et al.,ACS Appl.Mater.Interfaces 9(2017)36061-36069.
[62]D.S.Tang,J.H.Wan,X.P.Xu,et al.,Nano Energy 53(2018)258-269.
[63]M.Deng,X.P.Xu,Y.W.Lee,et al.,ACS Appl.Mater.Interfaces[280_TD$IF]11(2019)3308-3316.
[64]H.J.Bin,L.Zhong,Z.G.Zhang,et al.,Sci.China Chem.59(2016)1317-1322.
[65]T.H.Yan,H.J.Bin,C.K.Sun,Z.G.Zhang,Y.F.Li,Org.Electron.55(2018)106-111.
[66]T.H.Yan,H.J.Bin,C.K.Sun,Z.G.Zhang,Y.F.Li,Org.Electron.57(2018)255-262.
[67]L.Gao,Z.G.Zhang,L.W.Xue,et al.,Adv.Mater.28(2016)1884-1890.
[68]L.Gao,Z.G.Zhang,H.J.Bin,et al.,Adv.Mater.28(2016)8288-8295.
[69]Y.X.Li,L.Zhong,F.P.Wu,et al.,Energy Environ.Sci.9(2016)3429-3435.
[70]H.J.Bin,Z.G.Zhang,L.Gao,et al.,J.Am.Chem.Soc.138(2016)4657-4664.
[71]R.N.Yu,S.Q.Zhang,H.F.Yao,et al.,Adv.Mater.29(2017)1700437.
[72]Q.P.Fan,W.Y.Su,X.Y.Meng,et al.,Sol.RRL 1(2017)1700020.
[73]Q.P.Fan,W.Y.Su,X.Guo,et al.,J.Mater.Chem.A 5(2017)9204-9209.
[74]W.Y.Su,G.W.Li,Q.P.Fan,et al.,J.Mater.Chem.A[281_TD$IF]7(2018)2351-2359.
[75]Y.K.Yang,Z.G.Zhang,H.J.Bin,et al.,J.Am.Chem.Soc.138(2016)15011-15018.
[76]H.Huang,H.J.Bin,Z.X.Peng,et al.,Macromolecules 51(2018)6028-6036.
[77]H.J.Bin,L.Gao,Z.G.Zhang,et al.,Nat.Commun.7(2016)13651.
[78]H.J.Bin,Y.K.Yang,Z.X.Peng,et al.,Adv.Energy Mater.8(2018)1702324.
[79]H.J.Bin,L.Zhong,Y.K.Yang,et al.,Adv.Energy Mater.7(2017)1700746.
[80]L.W.Xue,Y.K.Yang,J.Q.Xu,et al.,Adv.Mater.29(2017)1703344.
[81]W.R.Liu,J.Y.Zhang,Z.C.Zhou,et al.,Adv.Mater.30(2018)1800403.
[82]B.B.Fan,P.Zhu,J.M.Xin,et al.,Adv.Energy Mater.8(2018)1703085.
[83]Z.Liu,D.Y.Liu,K.L.Zhang,et al.,J.Mater.Chem.A 5(2017)21650-21657.
[84]D.Y.Liu,K.L.Zhang,Y.Q.Zhong,et al.,J.Mater.Chem.A 6(2018)18125-18132.
[85]Y.Q.Zhong,D.Y.Liu,K.L.Zhang,et al.,J.Polym.Sci.,Part.A:Polym.Chem.56(2018)2762-2770.
[86]S.S.Chen,Y.H.Liu,L.Zhang,et al.,J.Am.Chem.Soc.139(2017)6298-6301.
[87]K.Feng,J.Yuan,Z.Z.Bi,et al.,iScience[28_TD$IF]1(2019)1-12.
[88]A.L.Tang,B.Xiao,F.Chen,et al.,Adv.Energy Mater.8(2018)1801582.
[89]W.Y.Su,Y.Meng,X.Guo,et al.,J.Mater.Chem.A 6(2018)16403-16411.
[90]W.C.Zhao,S.Q.Zhang,Y.Zhang,et al.,Adv.Mater.30(2018)1704837.
[91]Z.T.Liu,Y.R.Gao,J.Dong,et al.,J.Phys.Chem.Lett.9(2018)6955-6962.
[92]S.J.Liu,Y.Firdaus,S.Thomas,et al.,Angew.Chem.Int.Ed.57(2018)531-535.
[93]N.Bauer,Q.Q.Zhang,J.S.Zhu,et al.,J.Mater.Chem.A 5(2017)22536-22541.
[94]Y.Z.Lin,F.W.Zhao,S.K.K.Prasad,et al.,Adv.Mater.30(2018)1706363.
[95]N.Bauer,Q.Q.Zhang,J.B.Zhao,et al.,J.Mater.Chem.A 5(2017)4886-4893.
[96]Y.Y.Gao,Z.Wang,J.Q.Zhang,et al.,Macromolecules 51(2018)2498-2505.
[97]Z.J.Li,X.P.Xu,G.J.Zhang,et al.,Sol.RRL 2(2018)1800186.
[98]Y.Y.Gao,Z.Wang,J.Q.Zhang,et al.,J.Mater.Chem.A 6(2018)4023-4031.
[99]Y.Y.Gao,R.X.Zhu,Z.Wang,et al.,ACS Appl.Energy Mater.1(2018)1888-1892.
[100]W.B.Li,G.D.Li,X.Guo,et al.,J.Mater.Chem.A 5(2017)19680-19686.
[101]Z.J.Li,X.F.Xu,W.Zhang,et al.,Energy Environ.Sci.10(2017)2212-2221.
[102]W.K.Zhong,J.Cui,B.B.Fan,et al.,Chem.Mater.29(2017)8177-8186.
[103]X.Liu,C.Zhang,C.Duan,et al.,J.Am.Chem.Soc.140(2018)8934-8943.
[104]W.Huang,M.L.Li,F.Y.Lin,et al.,Mol.Syst.Des.Eng.3(2018)103-112.
[105]W.C.Chen,H.X.Jiang,G.Y.Huang,et al.,Sol.RRL 2(2018)1800101.
[106]W.B.Li,G.D.Li,X.Guo,et al.,J.Mater.Chem.A 6(2018)6551-6558.
[107]S.G.Wen,W.C.Chen,G.Y.Huang,et al.,J.Mater.Chem.C 6(2018)1753-1758.
[108]W.C.Chen,G.Y.Huang,X.M.Li,et al.,ACS Appl.Mater.Interfaces 10(2018)42747-42755.
[109]Z.Y.Li,B.B.Fan,B.T.He,et al.,Sci.China Chem.61(2018)427-436.
[110]C.Weng,W.G.Wang,J.T.Liang,et al.,J.Polym.Sci.,Part.A:Polym.Chem.56(2018)2330-2343.
[111]Y.Zou,Y.Y.Dong,Y.Wu,et al.,Org.Electron.63(2018)289-295.
[112]M.He,W.L.Li,H.K.Tian,et al.,Org.Electron.65(2019)31-38.
[113]H.R.Lin,S.S.Chen,Z.K.Li,et al.,Adv.Mater.27(2015)7299-7304.
[114]J.Liu,L.K.Ma,Z.K.Li,et al.,J.Mater.Chem.A 5(2017)22480-22488.
[115]H.W.Hu,K.Jiang,P.C.Y.Chow,et al.,Adv.Energy Mater.8(2018)1701674.
[116]Y.K.An,X.F.Liao,L.Chen,et al.,Sol.RRL 2(2018)1800291.
[117]D.P.Qian,L.Ye,M.J.Zhang,et al.,Macromolecules 45(2012)9611-9617.
[118]L.Ye,W.Jiang,W.C.Zhao,et al.,Small 10(2014)4658-4663.
[119]W.C.Zhao,D.P.Qian,S.Q.Zhang,et al.,Adv.Mater.28(2016)4734-4739.
[120]X.H.Liu,Y.Zou,H.Q.Wang,et al.,ACS Appl.Mater.Interfaces 10(2018)38302-38309.
[121]Z.G.Zhang,Y.Yang,J.Yao,et al.,Angew.Chem.Int.Ed.56(2017)13503-13507.
[122]Y.Wu,Y.Zou,H.Yang,et al.,ACS Appl.Mater.Interfaces 9(2017)37078-37086.
[123]Z.P.Fei,F.D.Eisner,X.C.Jiao,et al.,Adv.Mater.30(2018)1705209.
[124]Y.N.Wu,C.B.An,L.B.Shi,et al.,Angew.Chem.Int.Ed.57(2018)12911-12915.
[125]Y.Wu,H.Yang,Y.Zou,et al.,Sol.RRL 2(2018)1800060.
[126]L.L.Ye,Y.P.Xie,K.K.Weng,et al.,Nano Energy 58(2019)220-226.
[127]Y.Wang,Q.P.Fan,X.Guo,et al.,J.Mater.Chem.A 5(2017)22180-22185.
[128]Q.P.Fan,Y.Wang,M.J.Zhang,et al.,Adv.Mater.30(2018)1704546.
[129]S.S.Li,L.Ye,W.C.Zhao,et al.,Adv.Mater.29(2017)1704051.
[130]Q.P.Fan,W.Y.Su,Y.Wang,et al.,Sci.China Chem.61(2018)531-537.
[131]Z.Zheng,Q.Hu,S.Q.Zhang,et al.,Adv.Mater.(2018)1801801.
[132]T.Liu,Z.H.Luo,Q.P.Fan,et al.,Energy Environ.Sci.11(2018)3275-3282.
[133]J.L.Wang,K.K.Liu,L.Hong,et al.,ACS Energy Lett.3(2018)2967-2976.
[134]Q.P.Fan,Q.L.Zhu,Z.Xu,et al.,Nano Energy 48(2018)413-420.
[135]J.Yuan,Y.Q.Zhang,L.Y.Zhou,et al.,Joule[283_TD$IF]3(2019)1140-1151.
[136]H.T.Yao,F.J.Bai,H.W.Hu,et al.,ACS Energy Lett.4(2019)417-422.
[137]W.C.Zhao,S.S.Li,H.F.Yao,et al.,J.Am.Chem.Soc.139(2017)7148-7151.
[138]Y.Cui,S.Q.Zhang,N.N.Liang,et al.,Adv.Mater.(2018)1802499.
[139]T.Rehman,Z.X.Liu,T.K.Lau,et al.,ACS Appl.Mater.Interfaces(2018),doi:http://dx.doi.org/10.1021/acsami.1028b16628.
[140]Q.P.Fan,Z.Xu,X.Guo,et al.,Nano Energy 40(2017)20-26.
[141]X.N.Xue,K.K.Weng,F.Qi,et al.,Adv.Energy Mater.(2018)1802686.
[142]W.B.Li,G.D.Li,H.Guo,et al.,J.Mater.Chem.A[284_TD$IF]7(2019)1307-1314.
[143]Y.P.Qin,L.Ye,S.Q.Zhang,et al.,J.Mater.Chem.A 6(2018)4324-4330.
[144]Y.H.Li,D.Y.Liu,J.Y.Wang,et al.,Chem.Mater.29(2017)8249-8257.
[145]Y.H.Li,L.R.Duan,D.Y.Liu,et al.,J.Mater.Chem.C 6(2018)2806-2813.
[146]D.Y.Liu,J.Y.Wang,C.Y.Gu,et al.,Adv.Mater.30(2018)1705870.
[147]M.H.Hoang,G.E.Park,S.Choi,et al.,J.Mater.Chem.C[285_TD$IF]7(2019)111-118.
[148]J.Y.Kim,S.Park,S.Lee,et al.,Adv.Energy Mater.(2018)1801601.
[149]L.J.Huo,T.Liu,X.B.Sun,et al.,Adv.Mater.27(2015)2938-2944.
[150]D.Sun,D.Meng,Y.H.Cai,et al.,J.Am.Chem.Soc.137(2015)11156-11162.
[151]D.Meng,D.Sun,C.M.Zhong,et al.,J.Am.Chem.Soc.138(2016)375-380.
[152]Y.Z.Lin,Q.He,F.W.Zhao,et al.,J.Am.Chem.Soc.138(2016)2973-2976.
[153]Y.Z.Lin,F.W.Zhao,Q.He,et al.,J.Am.Chem.Soc.138(2016)4955-4961.
[154]W.T.Xiong,X.Y.Meng,T.Liu,et al.,Org.Electron.50(2017)376-383.
[155]K.K.Dou,X.C.Wang,Z.R.Du,et al.,J.Mater.Chem.A[286_TD$IF]7(2018)958-964.
[156]T.Liu,D.Meng,Y.H.Cai,et al.,Adv.Sci.3(2016)1600117.
[157]J.Y.Yuan,W.L.Ma,J.Mater.Chem.A 3(2015)7077-7085.
[158]T.Kim,J.H.Kim,T.E.Kang,et al.,Nat.Commun.6(2015)8547.
[159]C.Lee,T.Giridhar,J.Choi,et al.,Chem.Mater.29(2017)9407-9415.
[160]M.A.Uddin,Y.Kim,R.Younts,et al.,Macromolecules 49(2016)6374-6383.
[161]J.Y.Yuan,W.P.Guo,Y.X.Xia,et al.,Nano Energy 35(2017)251-262.
[162]G.Q.Ding,J.Y.Yuan,F.Jin,et al.,Nano Energy 36(2017)356-365.
[163]X.F.Xu,Z.J.Li,W.Zhang,et al.,Adv.Energy Mater.8(2018)1700908.
[164]T.Zhang,W.H.Feng,W.Wang,et al.,J.Mater.Chem.C 6(2018)8418-8428.
[165]J.Oh,K.Kranthiraja,C.Lee,et al.,Adv.Mater.28(2016)10016-10023.
[166]A.Kim,C.G.Park,S.H.Park,et al.,J.Mater.Chem.A 6(2018)10095-10103.
[167]F.Yang,D.P.Qian,A.H.Balawi,et al.,Phys.Chem.Chem.Phys.19(2017)23990-23998.
[168]W.T.Hadmojo,F.T.A.Wibowo,D.Y.Ryu,I.H.Jung,S.Y.Jang,ACS Appl.Mater.Interfaces 9(2017)32939-32945.
[169]F.Y.Lin,W.Huang,H.T.Sun,et al.,Chem.Mater.29(2017)5636-5645.
[170]Y.Xie,W.Huang,Q.B.Liang,et al.,ACS Energy Lett.(2019)4-16.
[171]J.Zhang,G.Y.Huang,H.Tan,et al.,Polymer 145(2018)108-116.
[172]Y.J.Guo,M.Li,Y.Y.Zhou,et al.,Macromolecules 50(2017)7984-7992.
[173]L.Y.Lan,Z.M.Chen,Q.Hu,et al.,Adv.Sci.3(2016)1600032.
[174]B.B.Fan,L.Ying,Z.F.Wang,et al.,Energy Environ.Sci.10(2017)1243-1251.
[175]B.B.Fan,K.Zhang,X.F.Jiang,et al.,Adv.Mater.29(2017)1606396.
[176]P.Zhu,B.B.Fan,X.Y.Du,et al.,ACS Appl.Mater.Interfaces 10(2018)22495-22503.
[177]K.Li,Z.C.Hu,Z.M.Y.Zeng,et al.,Org.Electron.57(2018)317-322.
[178]B.B.Fan,X.Y.Du,F.Liu,et al.,Nat.Energy 3(2018)1051-1058.
[179]J.Yuan,L.X.Qiu,Z.G.Zhang,et al.,Nano Energy 30(2016)312-320.
[180]C.K.Sun,F.Pan,H.J.Bin,et al.,Nat.Commun.9(2018)743.
[181]J.Yang,M.A.Uddin,Y.M.Tang,et al.,ACS Appl.Mater.Interfaces 10(2018)23235-23246.
[182]T.Yu,X.P.Xu,G.J.Zhang,et al.,Adv.Funct.Mater.27(2017)1701491.
[183]S.Subramaniyan,H.Xin,F.S.Kim,et al.,Adv.Energy Mater.1(2011)854-860.
[184]T.Earmme,Y.J.Hwang,N.M.Murari,S.Subramaniyan,S.A.Jenekhe,J.Am.Chem.Soc.135(2013)14960-14963.
[185]T.Earmme,Y.J.Hwang,S.Subramaniyan,S.A.Jenekhe,Adv.Mater.26(2014)6080-6085.
[186]Y.J.Hwang,H.Y.Li,B.A.E.Courtright,S.Subramaniyan,S.A.Jenekhe,Adv.Mater.28(2016)124-131.
[187]K.Zhao,Q.Wang,B.W.Xu,et al.,J.Mater.Chem.A 4(2016)9511-9518.
[188]B.Guo,W.B.Li,X.Guo,et al.,Adv.Mater.29(2017)1702291.
[189]Y.D.Zhang,X.Guo,B.Guo,et al.,Adv.Funct.Mater.27(2017)1603892.
[190]W.Y.Su,Q.P.Fan,X.Guo,et al.,Nano Energy 38(2017)510-517.
[191]B.F.Zhao,W.P.Wang,J.M.Xin,et al.,ACS Sustain.Chem.Eng.6(2018)2177-2187.
[192]X.Guo,W.B.Li,H.Guo,et al.,J.Mater.Chem.A 6(2018)16529-16536.
[193]S.G.Wen,Y.Li,T.Rath,et al.,Chem.Mater.[287_TD$IF]31(2019)919-926.
[194]B.Guo,W.B.Li,X.Guo,et al.,Nano Energy 34(2017)556-561.
[195]S.R.Huang,L.Chen,Z.H.Liao,et al.,Org.Electron.64(2019)110-116.
[196]X.P.Xu,T.Yu,Z.Z.Bi,et al.,Adv.Mater.30(2018)1703973.
[197]S.C.Wang,Z.J.Li,X.P.Xu,et al.,J.Mater.Chem.A[28_TD$IF]436(2018)22503-22507.
[198]X.P.Xu,Z.J.Li,Z.Z.Bi,et al.,Adv.Mater.30(2018)1800737.
[199]T.Zhang,G.Zeng,F.Ye,X.L.Zhao,X.N.Yang,Adv.Energy Mater.8(2018)1801387.
[200]Z.Li,D.L.Yang,T.Zhang,et al.,Small 14(2018)1704491.
[201]J.W.Yu,J.Yang,X.Zhou,et al.,Macromolecules 50(2017)8928-8937.
[202]P.L.Gao,J.F.Tong,P.Z.Guo,et al.,J.Polym.Sci.,Part.A:Polym.Chem.56(2018)85-95.
[203]S.S.Chen,H.J.Cho,J.Lee,et al.,Adv.Energy Mater.7(2017)1701125.
[204]V.Tamilavan,J.Lee,R.Agneeswari,et al.,Org.Electron.63(2018)78-85.
[205]B.Yang,S.Q.Zhang,Y.Chen,et al.,Macromolecules 50(2017)1453-1462.
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