標題: | Triarylamine-based crosslinked hole-transporting material with an ionic dopant for high-performance PEDOT:PSS-free polymer solar cells |
作者: | Tsai, Che-En Liao, Ming-Hung Chen, Yung-Lung Cheng, Sheng-Wen Lai, Yu-Ying Cheng, Yen-Ju Hsu, Chain-Shu 應用化學系 Department of Applied Chemistry |
公開日期: | 1-Jan-2015 |
摘要: | A triarylamine-based material DVTPD containing two styryl groups has been developed. Upon isothermal heating at 180 degrees C for 30 min, DVTPD can be thermally cross-linked to form a solvent-resistant layer to realize the fabrication of solution-processed multilayer devices. The crosslinked DVTPD (denoted as X-DVTPD) layer possesses not only hole-collecting ability (HOMO = -5.3 eV) but also electron-blocking capability (LUMO = -2.2 eV). By incorporation of an ionic dopant, 4-isopropyl-4\'-methyldiphenyliodonium tetrakis(pentafluorophenylborate) (DPITPFB), into the X-DVTPD material (1 : 10 in wt%), a favourable morphology of the dopant/matrix layer was formed and the hole-mobility is significantly improved by three orders of magnitude compared to its non-doped state. This DPITPFB : X-DVTPD (1 : 10 in wt%) layer was employed as the hole-transporting layer to fabricate polymer solar cell devices (PSCs). The E-HOMO of the polymer in the active layer relative to the E-HOMO of the X-DVTPD (-5.3 eV) governs the hole transportation highly associated with the device performance. The higher-lying E-HOMO (-5.0 eV) of P3HT causes a large energy barrier for the hole transportation at the interface, leading to an unsatisfactory efficiency. The E-HOMO level of the PTB7 copolymer (-5.15 eV) is closer to -5.3 eV. As a result, the PTB7-based device can achieve 80% of the efficiency obtained from the corresponding PEDOT:PSS-based device. Furthermore, the PBDCPDTFBT copolymer has the same E-HOMO (-5.3 eV) with X-DVTPD. Consequently, the PBDCPDTFBT-based device showed a comparable efficiency of 5.3% to the corresponding PEDOT: PSS-based device. More importantly, PNDTDTFBT having the lowest-lying E-HOMO of -5.4 eV exhibits superior performance with a high PCE of 6.64%, outperforming its reference PEDOT: PSS-based device. This simple and useful hole-transporting system integrating the crosslinking and doping strategies to replace PEDOT:PSS can be widely used in solution-processed organic electronic devices. |
URI: | http://dx.doi.org/10.1039/c5tc00714c http://hdl.handle.net/11536/127953 |
ISSN: | 2050-7526 |
DOI: | 10.1039/c5tc00714c |
期刊: | JOURNAL OF MATERIALS CHEMISTRY C |
Issue: | 24 |
起始頁: | 6158 |
結束頁: | 6165 |
Appears in Collections: | Articles |