| Literature DB >> 26066398 |
Jiajun Peng1, Yani Chen1, Xiaohan Wu2, Qian Zhang3, Bin Kan3, Xiaoqing Chen1, Yongsheng Chen3, Jia Huang2, Ziqi Liang1.
Abstract
Efficient charge transport is a key step toward high efficiency in small-molecule organic photovoltaics. Here we applied time-of-flight and organic field-effect transistor to complementarily study the influences of molecular structure, trap states, and molecular orientation on charge transport of small-molecule DRCN7T (D1) and its analogue DERHD7T (D2). It is revealed that, despite the subtle difference of the chemical structures, D1 exhibits higher charge mobility, the absence of shallow traps, and better photosensitivity than D2. Moreover, charge transport is favored in the out-of-plane structure within D1-based organic solar cells, while D2 prefers in-plane charge transport.Keywords: charge mobility; organic field-effect transistor; organic photovoltaics; time-of-flight; transport dynamics; π-conjugated small molecules
Year: 2015 PMID: 26066398 DOI: 10.1021/acsami.5b03073
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229