Three novel triphenylamine-based D-A-r-A-featured dyes (Zl-Z3) have been designed, synthesized and characterized for use in dye-sensitized solar cells. Benzothiazole was incorporated as an additional acceptor, which...Three novel triphenylamine-based D-A-r-A-featured dyes (Zl-Z3) have been designed, synthesized and characterized for use in dye-sensitized solar cells. Benzothiazole was incorporated as an additional acceptor, which greatly enhanced the molar ex- tinction coefficient of the dyes. Various conjugated linkers, such as benzene, furan and thiophene, were also introduced to con- figure the novel D-A-n-A framework in order to prolong electron flow and active transportation. Among all dyes, Z2 contain- ing a thiophene linker exhibited the maximum overall conversion efficiency (r/) of 4.16% (Jsc = 9.27 mA cm-2, Voc = 642 mV, FF = 0.70) under standard global AM 1.5 G solar condition.展开更多
基金supported by the National Natural Science Foundation of China (20872038, 20873183, 21072064)the Fund from Guangzhou Science and Technology Project, China (2012J4100003)
文摘Three novel triphenylamine-based D-A-r-A-featured dyes (Zl-Z3) have been designed, synthesized and characterized for use in dye-sensitized solar cells. Benzothiazole was incorporated as an additional acceptor, which greatly enhanced the molar ex- tinction coefficient of the dyes. Various conjugated linkers, such as benzene, furan and thiophene, were also introduced to con- figure the novel D-A-n-A framework in order to prolong electron flow and active transportation. Among all dyes, Z2 contain- ing a thiophene linker exhibited the maximum overall conversion efficiency (r/) of 4.16% (Jsc = 9.27 mA cm-2, Voc = 642 mV, FF = 0.70) under standard global AM 1.5 G solar condition.
