Journal ArticleDOI
Different Effect of the Additional Electron-Withdrawing Cyano Group in Different Conjugation Bridge: The Adjusted Molecular Energy Levels and Largely Improved Photovoltaic Performance.
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TLDR
Computational analysis disclosed that pyrrole as the auxiliary electron donor (D') in the conjugated bridge can compensate for the lower negative charge in the electron acceptor, leading to the more efficient electron injection and better photovoltaic performance.Abstract:
Four organic sensitizers (LI-68–LI-71) bearing various conjugated bridges were designed and synthesized, in which the only difference between LI-68 and LI-69 (or LI-70 and LI-71) was the absence/presence of the CN group as the auxiliary electron acceptor. Interestingly, compared to the reference dye of LI-68, LI-69 bearing the additional CN group exhibited the bad performance with the decreased Jsc and Voc values. However, once one thiophene moiety near the anchor group was replaced by pyrrole with the electron-rich property, the resultant LI-71 exhibited a photoelectric conversion efficiency increase by about 3 folds from 2.75% (LI-69) to 7.95% (LI-71), displaying the synergistic effect of the two moieties (CN and pyrrole). Computational analysis disclosed that pyrrole as the auxiliary electron donor (D′) in the conjugated bridge can compensate for the lower negative charge in the electron acceptor, which was caused by the CN group as the electron trap, leading to the more efficient electron injection an...read more
Citations
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Journal ArticleDOI
Impact of end groups on the performance of non-fullerene acceptors for organic solar cell applications
TL;DR: In this paper, the effect of terminal chromophoric groups on the overall performance of organic photovoltaic devices is discussed focusing on a number of NNAs and their effect on the absorption spectrum, frontier molecular orbital energy levels and solubility via molecular engineering.
Journal ArticleDOI
Organic Sensitizers with Extended Conjugation Frameworks as Cosensitizers of Porphyrins for Developing Efficient Dye-Sensitized Solar Cells
TL;DR: The results indicate that the combination of good planarity of the extended D-π-A framework with multiple alkoxy/alkyl chains may compose an effective optimizing strategy for designing and synthesizing excellent cosensitizers for porphyrins.
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Active cyano groups to coordinate AlCl2+ cation for rechargeable aluminum batteries
TL;DR: In this article, Tetracyanoquinodimethane (TCNQ) with high conductivity is identified as the optimized cyano-organic positive electrode material for stable rechargeable aluminum batteries.
Journal ArticleDOI
A Strategy To Boost the Efficiency of Rhodanine Electron Acceptor for Organic Dye: From Nonconjugation to Conjugation
TL;DR: It is unambiguously demonstrates that the conjugated rhodanine derivative is a highly promising electron acceptor and provides a new strategy for high-efficiency rhodAnine-based organic dyes in DSSCs.
Journal ArticleDOI
The introduction of conjugated isolation groups into the common acceptor cyanoacrylic acid: an efficient strategy to suppress the charge recombination in dye sensitized solar cells and the dramatically improved efficiency from 5.89% to 9.44%
Huiyang Li,Manman Fang,Runli Tang,Yingqin Hou,Qiuyan Liao,Anyi Mei,Hongwei Han,Qianqian Li,Zhen Li +8 more
TL;DR: In this paper, the traditional acceptor, cyanoacrylic acid, was modified by the insertion of different aromatic rings as the isolation groups between the CN and COOH moieties, with the aim to suppress the possible charge recombination in dye sensitized solar cells.
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