非富勒烯聚合物太阳电池研究进展  被引量：8

作　　者：宾海军 李永舫[1,2,3] 

机构地区：[1]中国科学院科教融合分子科学卓越中心中国科学院化学研究所有机固体院重点实验室,北京100190 [2]中国科学院大学化学化工学院,北京100049 [3]苏州大学材料与化学化工学部先进光电材料实验室,苏州215123

出　　处：《高分子学报》2017年第9期1444-1461,共18页Acta Polymerica Sinica

基　　金：国家自然科学基金(基金号91633301;91433117;91333204);国家重点基础研究发展计划(973计划;项目号2014CB643501);中国科学院战略性先导科技专项(B类)(项目号XDB12030200)资助

摘　　要：综述了以p-型共轭聚合物为给体、n-型有机半导体为受体的非富勒烯聚合物太阳电池光伏材料最新研究进展,包括n-型共轭聚合物和可溶液加工小分子n-型有机半导体(n-OS)受体光伏材料,以及与之匹配的p-型共轭聚合物给体光伏材料.介绍的n-型共轭聚合物受体光伏材料包括基于苝酰亚胺(BDI)、萘酰亚胺(NDI)以及新型硼氮键连受体单元的D-A共聚物受体光伏材料,目前基于聚合物给体(J51)和聚合物受体(N2200)的全聚合物太阳电池的能量转换效率最高达到8.26%.n-OS小分子受体光伏材料包括基于BDI和NDI单元的有机分子、基于稠环中心给体单元的A-D-A型窄带隙有机小分子受体材料等.给体光伏材料包括基于齐聚噻吩和苯并二噻吩(BDT)给体单元的D-A共聚物,重点介绍与窄带隙A-D-A结构小分子受体吸收互补的、基于噻吩取代BDT单元的中间带隙二维共轭聚合物给体光伏材料.使用中间带隙的p-型共轭聚合物为给体、窄带隙A-D-A结构有机小分子为受体的非富勒烯聚合物太阳电池能量转换效率已经突破12%,展示了光明的前景.最后对非富勒烯聚合物太阳电池将来的发展进行了展望.Nonfullerene polymer solar cells （PSCs） based on p-type conjugated polymer as donor and n-typeorganic semiconductor （n-OS） as acceptor have attracted great attention in recent years, due to the advantages ofthe n-OS acceptors, such as strong and broad absorption in visible-NIR region, easy tuning of absorption andelectronic energy levels, and good morphology stability in comparison with the traditional fullerene derivativeacceptors. This article reviews the recent research progress of the n-OS acceptors （including n-type conjugatedpolymers and n-OS solution-processable organic small molecules） and the conjugated polymer donor photovoltaicmaterials for the application in nonfullerene PSCs. The n-type conjugated polymer acceptor materials include theperylene diimide （PDI）- and naphthalene diimide （NDI）-based D-A copolymers, as well as the D-A copolymersbased on the new B--N bonded acceptor unit. The highest power conversion efficiency （PCE） reached 8.24% forthe all polymer PSCs with a medium bandgap p-type conjugated polymer J51 as donor and a narrow bandgapn-type NDI-based D-A copolymer N2200 as acceptor. The n-OS small molecules acceptors include the PDI- orNDI-hased molecules, the narrow bandgap A-D-A structured small molecules with a fused ring central donor unitand two electron-withdrawing end groups （such as ITIC）, and other n-OS small molecules. The p-type conjugatedpolymer donor materials, matching with the nonfullerene acceptors, include the narrow bandgap oligothiophene-or banzodithiophene （BDT）-based copolymers, and the medium bandgap two-dimension-conjugated D-Acopolymers based on BDT with thiophene conjugated side chains. The best nonfellerene PSCs, with a mediumbandgap polymer as donor and a narrow bandgap A-D-A structured n-OS as acceptor, have been recentlydemonstrated to have high PCE of over 12%. The complementary absorption in the visible-NIR region, matchingelectronic energy levels of the donor and acceptor materials, is very important for the high performancenonf

关 键 词：聚合物太阳电池 n-型有机半导体 非富勒烯受体 共轭聚合物给体光伏材料 能量转换效率 

分 类 号：TM914.4[电气工程—电力电子与电力传动]