07 Sep 08:27
J. Mater. Chem. A, 2018, 6,18469-18478
DOI: 10.1039/C8TA05903A, Paper
Liangang Xiao, Tianqi Lai, Xiang Liu, Feng Liu, Thomas P. Russell, Yi Liu, Fei Huang, Xiaobin Peng, Yong Cao
SVA treatment induces π–π stacking and tightens lamellar packing of porphyrin molecules and also improves phase purity of blend films which enhance the exciton separation and reduce the recombination.
The content of this RSS Feed (c) The Royal Society of Chemistry
07 Sep 08:25
J. Mater. Chem. A, 2018, 6,16529-16536
DOI: 10.1039/C8TA05868G, Paper
Xia Guo, Wanbin Li, Huan Guo, Bing Guo, Jingnan Wu, Wei Ma, Maojie Zhang, Wai-Yeung Wong
A novel wide bandgap polymer PTZP with Eoptg of 2.01 eV was designed and synthesized. PSCs based on PTZP exhibited high PCE of 11.8%. PCEs of over 10% were obtained with an active layer thickness of 200 nm or an area of 0.81 cm2. PTZP was shown to be a promising conjugated polymer for the fabrication of efficient large area PSCs.
The content of this RSS Feed (c) The Royal Society of Chemistry
07 Sep 08:25
J. Mater. Chem. A, 2018, 6,16638-16644
DOI: 10.1039/C8TA05800H, Paper
Cenqi Yan, Wei Wang, Tsz-Ki Lau, Kejia Li, Jiayu Wang, Kuan Liu, Xinhui Lu, Xiaowei Zhan
We designed and synthesized ITIC5 by replacing benzene-fused end groups of ITIC1 with thiophene-fused end groups and investigated effects of thiophene/benzene-fused termini on optical and electronic potentials of these molecules as well as the performance of organic solar cells.
The content of this RSS Feed (c) The Royal Society of Chemistry
07 Sep 08:24
J. Mater. Chem. A, 2018, 6,16403-16411
DOI: 10.1039/C8TA05376F, Paper
Wenyan Su, Yuan Meng, Xia Guo, Qunping Fan, Ming Zhang, Yufeng Jiang, Zhuo Xu, Yu Dai, Beichen Xie, Feng Liu, Maojie Zhang, Thomas P. Russell, Yongfang Li
Efficient all-PSCs based on PFBZ:N2200 were developed and achieved a high efficiency of 8.1%. The PSCs show high thermal stability and storability.
The content of this RSS Feed (c) The Royal Society of Chemistry
07 Sep 08:22
J. Mater. Chem. A, 2018, 6,16769-16797
DOI: 10.1039/C8TA06392C, Review Article
Asif Mahmood, Jian-Yong Hu, Bo Xiao, Ailing Tang, Xiaochen Wang, Erjun Zhou
This article is written to provide an up-to-date review of porphyrin-based materials used in organic solar cells (OSCs).
The content of this RSS Feed (c) The Royal Society of Chemistry
29 Aug 14:25
by Mark E. Ziffer, Sae Byeok Jo, Hongliang Zhong, Long Ye, Hongbin Liu, Francis Lin, Jie Zhang, Xiaosong Li, Harald W. Ade, Alex K.-Y. Jen, David S. Ginger
Journal of the American Chemical Society
DOI: 10.1021/jacs.8b05834
20 Aug 14:24
by Huawei
Hu
,
Yunke
Li
,
Jianquan
Zhang
,
Zhengxing
Peng
,
Lik‐kuen
Ma
,
Jingming
Xin
,
Jiachen
Huang
,
Tingxuan
Ma
,
Kui
Jiang
,
Guangye
Zhang
,
Wei
Ma
,
Harald
Ade
,
He
Yan
Advanced Energy Materials,
Volume 8, Issue 26, September 14, 2018.
20 Aug 14:22
by Yuming
Wang
,
Deping
Qian
,
Yong
Cui
,
Huotian
Zhang
,
Jianhui
Hou
,
Koen
Vandewal
,
Thomas
Kirchartz
,
Feng
Gao
Advanced Energy Materials,
Volume 8, Issue 28, October 5, 2018.
20 Aug 14:22
by Dongxue
Liu
,
Bin
Kan
,
Xin
Ke
,
Nan
Zheng
,
Zengqi
Xie
,
Di
Lu
,
Yongsheng
Liu
Advanced Energy Materials,
Volume 8, Issue 26, September 14, 2018.
20 Aug 14:18
by Hoseon
You
,
Donguk
Kim
,
Han‐Hee
Cho
,
Changyeon
Lee
,
Sanggyu
Chong
,
Nam Young
Ahn
,
Myungeun
Seo
,
Jihan
Kim
,
Felix Sunjoo
Kim
,
Bumjoon J.
Kim
Advanced Functional Materials,
Volume 28, Issue 39, September 26, 2018.
20 Aug 14:15
by Kai
Zhang
,
Ruoxi
Xia
,
Baobing
Fan
,
Xiang
Liu
,
Zhenfeng
Wang
,
Sheng
Dong
,
Hin‐Lap
Yip
,
Lei
Ying
,
Fei
Huang
,
Yong
Cao
Advanced Materials,
Volume 30, Issue 36, September 6, 2018.
03 Aug 09:30
by Ailing
Tang
,
Bo
Xiao
,
Fan
Chen
,
Jianqi
Zhang
,
Zhixiang
Wei
,
Erjun
Zhou
Advanced Energy Materials,
Volume 8, Issue 25, September 5, 2018.
03 Aug 09:29
by Tong
Zhang
,
Guang
Zeng
,
Feng
Ye
,
Xiaoli
Zhao
,
Xiaoniu
Yang
Advanced Energy Materials,
Volume 8, Issue 25, September 5, 2018.
03 Aug 09:15
by Xi
Liu
,
Xiaoyan
Du
,
Junyi
Wang
,
Chunhui
Duan
,
Xiaofeng
Tang
,
Thomas
Heumueller
,
Guogang
Liu
,
Yan
Li
,
Zhaohui
Wang
,
Jing
Wang
,
Feng
Liu
,
Ning
Li
,
Christoph J.
Brabec
,
Fei
Huang
,
Yong
Cao
Advanced Energy Materials,
Volume 8, Issue 26, September 14, 2018.
03 Aug 09:13
by Zhen
Wen
,
Yanqin
Yang
,
Na
Sun
,
Gengfei
Li
,
Yina
Liu
,
Chen
Chen
,
Jihong
Shi
,
Lingjie
Xie
,
Hongxue
Jiang
,
Dequan
Bao
,
Qiqi
Zhuo
,
Xuhui
Sun
Advanced Functional Materials,
Volume 28, Issue 37, September 12, 2018.
23 Jul 09:04
by Xi Liu, Chaohong Zhang, Chunhui Duan, Mengmeng Li, Zhicheng Hu, Jing Wang, Feng Liu, Ning Li, Christoph J. Brabec, René A. J. Janssen, Guillermo C. Bazan, Fei Huang, Yong Cao
Journal of the American Chemical Society
DOI: 10.1021/jacs.8b05038
23 Jul 09:02
by Jiayu Wang, Junxiang Zhang, Yiqun Xiao, Tong Xiao, Runyu Zhu, Cenqi Yan, Youquan Fu, Guanghao Lu, Xinhui Lu, Seth R. Marder, Xiaowei Zhan
Journal of the American Chemical Society
DOI: 10.1021/jacs.8b04027
23 Jul 08:56
J. Mater. Chem. A, 2018, 6,14700-14708
DOI: 10.1039/C8TA05207G, Paper
Hang Yang, Yue Wu, Yan Zou, Yingying Dong, Jianyu Yuan, Chaohua Cui, Yongfang Li
A new polymer donor is developed for efficient polymer solar cells which can simultaneously achieve high short-circuit current density and transparency.
The content of this RSS Feed (c) The Royal Society of Chemistry
23 Jul 08:54
J. Mater. Chem. A, 2018, 6,15433-15455
DOI: 10.1039/C8TA04718A, Review Article
Fugang Shen, Jianzhong Xu, Xuemei Li, Chuanlang Zhan
This review gives an in-depth understanding of structure–performance relationships achieved from fused-ring based nonfullerene acceptors with perpendicular side-chains.
The content of this RSS Feed (c) The Royal Society of Chemistry
23 Jul 08:53
J. Mater. Chem. A, 2018, 6,15610-15620
DOI: 10.1039/C8TA05892J, Paper
Qiuju Liang, Jie Han, Chunpeng Song, Xinhong Yu, Detlef-M. Smilgies, Kui Zhao, Jiangang Liu, Yanchun Han
The ordered aggregation of non-fullerene small molecular acceptors (SMAs) plays a key role in determining the charge transport and bimolecular recombination in polymer/SMA solar cells.
The content of this RSS Feed (c) The Royal Society of Chemistry
23 Jul 08:49
by Andrew
Wadsworth
,
Zeinab
Hamid
,
Matthew
Bidwell
,
Raja S.
Ashraf
,
Jafar I.
Khan
,
Dalaver H.
Anjum
,
Camila
Cendra
,
Jun
Yan
,
Elham
Rezasoltani
,
Anne A. Y.
Guilbert
,
Mohammed
Azzouzi
,
Nicola
Gasparini
,
James H.
Bannock
,
Derya
Baran
,
Hongbin
Wu
,
John C.
de Mello
,
Christoph J.
Brabec
,
Alberto
Salleo
,
Jenny
Nelson
,
Frédéric
Laquai
,
Iain
McCulloch
Advanced Energy Materials,
Volume 8, Issue 28, October 5, 2018.
23 Jul 08:48
by Dr.
Jianhua
Chen
,
Fanglong
Qiu
,
Qiaogan
Liao
,
Changliang
Peng
,
Prof.
Feng
Liu
,
Prof.
Xugang
Guo
Advanced Energy Materials, July 2018.
23 Jul 08:47
by Chao‐Hsuan
Chen
,
Zhi‐Wei
Lin
,
Kuan‐Min
Huang
,
Prof.
Hsin‐Fei
Meng
,
Szu‐Han
Chen
,
Prof.
Ziyi
Ge
,
Prof.
Hsiao‐Wen
Zan
,
Prof.
Chih‐Yu
Chang
,
Prof.
Yu‐Chiang
Chao
,
Prof.
Sheng‐Fu
Horng
Advanced Energy Materials, July 2018.
23 Jul 08:45
by Bei
Yang
,
Yu
Chen
,
Yong
Cui
,
Delong
Liu
,
Bowei
Xu
,
Jianhui
Hou
Advanced Energy Materials,
Volume 8, Issue 25, September 5, 2018.
23 Jul 08:44
by Guichuan
Zhang
,
Ruoxi
Xia
,
Zhen
Chen
,
Jingyang
Xiao
,
Xuenan
Zhao
,
Shiyuan
Liu
,
Hin‐Lap
Yip
,
Yong
Cao
Advanced Energy Materials,
Volume 8, Issue 25, September 5, 2018.
23 Jul 08:28
by Jiangquan
Mai
,
Yiqun
Xiao
,
Guodong
Zhou
,
Jiayu
Wang
,
Jingshuai
Zhu
,
Ni
Zhao
,
Xiaowei
Zhan
,
Xinhui
Lu
Advanced Materials, EarlyView.
23 Jul 08:27
by Yong
Cui
,
Shaoqing
Zhang
,
Ningning
Liang
,
Jingyi
Kong
,
Chenyi
Yang
,
Huifeng
Yao
,
Lijiao
Ma
,
Jianhui
Hou
Advanced Materials, EarlyView.
23 Jul 08:25
by Zhong
Zheng
,
Qin
Hu
,
Shaoqing
Zhang
,
Dongyang
Zhang
,
Jianqiu
Wang
,
Shenkun
Xie
,
Rong
Wang
,
Yunpeng
Qin
,
Wanning
Li
,
Ling
Hong
,
Ningning
Liang
,
Feng
Liu
,
Yuan
Zhang
,
Zhixiang
Wei
,
Zhiyong
Tang
,
Thomas P.
Russell
,
Jianhui
Hou
,
Huiqiong
Zhou
Advanced Materials, EarlyView.
23 Jul 08:24
by Qian
Kang
,
Bei
Yang
,
Ye
Xu
,
Bowei
Xu
,
Jianhui
Hou
Advanced Materials, EarlyView.
23 Jul 08:22
by Erica
Zeglio
,
Olle
Inganäs
The organic electrochemical transistor (OECT) is gaining increased attention as a promising device for bioelectronics. Its function hinges on the mixed ionic and electronic conductivity of conducting polymers. The structure–property relationships governing OECT operation and performance are presented. An overview is given on the current strategies and future directions toward effective interfaces of OECTs with biological systems.
Abstract
The organic electrochemical transistor (OECT) is a device capable of simultaneously controlling the flow of electronic and ionic currents. This unique feature renders the OECT the perfect technology to interface man‐made electronics, where signals are conveyed by electrons, with the world of the living, where information exchange relies on chemical signals. The function of the OECT is controlled by the properties of its core component, an organic conductor. Its chemical structure and interactions with electrolyte molecules at the nanoscale play a key role in regulating OECT operation and performance. Herein, the latest research progress in the design of active materials for OECTs is reviewed. Particular focus is given on the conducting polymers whose properties lead to advances in understanding the OECT working mechanism and improving the interface with biological systems for bioelectronics. The methods and device models that are developed to elucidate key relations between the structure of conducting polymer films and OECT function are discussed. Finally, the requirements of OECT design for in vivo applications are briefly outlined. The outcomes represent an important step toward the integration of organic electronic components with biological systems to record and modulate their functions.
