A kind of new fused-ring electron acceptor, IDT-OB, bearing asymmetric side chains, is synthesized for high-efficiency thick-film organic solar cells. The introduction of asymmetric side chains can increase the solubility of acceptor molecules, enable the acceptor molecules to pack closely in a dislocated way, and form favorable phase separation when blended with PBDB-T. As expected, PBDB-T:IDT-OB-based devices exhibit high and balanced hole and electron mobility and give a high power conversion efficiency (PCE) of 10.12%. More importantly, the IDT-OB-based devices are not very sensitive to the film thickness, a PCE of 9.17% can still be obtained even the thickness of active layer is up to 210 nm.
Описание
Fused-Ring Acceptors with Asymmetric Side Chains for High-Performance Thick-Film Organic Solar Cells - Feng - 2017 - Advanced Materials - Wiley Online Library
%0 Journal Article
%1 ADMA:ADMA201703527
%A Feng, Shiyu
%A Zhang, Cai'e
%A Liu, Yahui
%A Bi, Zhaozhao
%A Zhang, Zhe
%A Xu, Xinjun
%A Ma, Wei
%A Bo, Zhishan
%D 2017
%J Advanced Materials
%K film organics performance thick
%N 42
%P n/a--n/a
%R 10.1002/adma.201703527
%T Fused-Ring Acceptors with Asymmetric Side Chains for High-Performance Thick-Film Organic Solar Cells
%U http://dx.doi.org/10.1002/adma.201703527
%V 29
%X A kind of new fused-ring electron acceptor, IDT-OB, bearing asymmetric side chains, is synthesized for high-efficiency thick-film organic solar cells. The introduction of asymmetric side chains can increase the solubility of acceptor molecules, enable the acceptor molecules to pack closely in a dislocated way, and form favorable phase separation when blended with PBDB-T. As expected, PBDB-T:IDT-OB-based devices exhibit high and balanced hole and electron mobility and give a high power conversion efficiency (PCE) of 10.12%. More importantly, the IDT-OB-based devices are not very sensitive to the film thickness, a PCE of 9.17% can still be obtained even the thickness of active layer is up to 210 nm.
@article{ADMA:ADMA201703527,
abstract = {A kind of new fused-ring electron acceptor, IDT-OB, bearing asymmetric side chains, is synthesized for high-efficiency thick-film organic solar cells. The introduction of asymmetric side chains can increase the solubility of acceptor molecules, enable the acceptor molecules to pack closely in a dislocated way, and form favorable phase separation when blended with PBDB-T. As expected, PBDB-T:IDT-OB-based devices exhibit high and balanced hole and electron mobility and give a high power conversion efficiency (PCE) of 10.12%. More importantly, the IDT-OB-based devices are not very sensitive to the film thickness, a PCE of 9.17% can still be obtained even the thickness of active layer is up to 210 nm.},
added-at = {2017-11-09T10:30:15.000+0100},
author = {Feng, Shiyu and Zhang, Cai'e and Liu, Yahui and Bi, Zhaozhao and Zhang, Zhe and Xu, Xinjun and Ma, Wei and Bo, Zhishan},
biburl = {https://www.bibsonomy.org/bibtex/26378ae486872ad60806afef4a07be0b6/fabianopkm},
description = {Fused-Ring Acceptors with Asymmetric Side Chains for High-Performance Thick-Film Organic Solar Cells - Feng - 2017 - Advanced Materials - Wiley Online Library},
doi = {10.1002/adma.201703527},
interhash = {dc87eb07018afc75412e5742a2c98d40},
intrahash = {6378ae486872ad60806afef4a07be0b6},
issn = {1521-4095},
journal = {Advanced Materials},
keywords = {film organics performance thick},
number = 42,
pages = {n/a--n/a},
timestamp = {2017-11-09T10:30:15.000+0100},
title = {Fused-Ring Acceptors with Asymmetric Side Chains for High-Performance Thick-Film Organic Solar Cells},
url = {http://dx.doi.org/10.1002/adma.201703527},
volume = 29,
year = 2017
}