An Oligothiophene-Fullerene Molecule with a Balanced Donor-Acceptor Backbone for High-Performance Single-Component Organic Solar Cells

Wang Wei; Sun Rui; Guo Jing; Guo Jie; Min Jie

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An Oligothiophene-Fullerene Molecule with a Balanced Donor-Acceptor Backbone for High-Performance Single-Component Organic Solar Cells

机译：具有均衡供体 - 受体骨架的低位噻吩 - 富勒烯分子，用于高性能单组分有机太阳能电池

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摘要

A new balanced donor-acceptor molecule, namely, benzodithiophene (BDT)-rhodanine-[6,6]-phenyl-C-71 butyric acid methyl ester (Rh-PC71BM) comprising two covalently linked blocks, a p-type oligothiophene-containing BDT-based moiety and an n-type PC71BM unit was designed and synthesized. The single-component organic solar cell (SCOSC) fabricated from Rh-PC71BM molecules showed a power conversion efficiency (PCE) of 3.22 % with an open-circuit voltage (V-oc) of 0.98 V. These results rank are among the highest values for SCOSCs based on a monomolecular material. In particular, the one-molecule Rh-PC71BM device exhibits excellent thermal stability compared to reference Rh-OH:PC71BM device. The success of our monomolecular strategy can provide a new way to develop high-performance SCOSCs.

机译：一种新的平衡供体 - 受体分子，即苯二噻吩（BDT）-Rhodanine- [6,6] - 苯基-C-71丁酸甲酯（RH-PC71BM），其包含两个共价连接的嵌段，含P型低橄榄球蛋白设计并合成了基于BDT的部分和N型PC71BM单元。由RH-PC71BM分子制成的单组分有机太阳能电池（SCOSC）显示出3.22％的功率转换效率（PCE），开口电压（V-OC）为0.98 V.这些结果等级是最高值对于基于单分子材料的SCOSCS。特别地，与参考RH-OH：PC71BM装置相比，单分子RH-PC71BM器件具有优异的热稳定性。我们的单声分子战略的成功可以提供开发高性能SCOSC的新方法。

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来源
《Angewandte Chemie》 |2019年第41期|共6页
作者
Wang Wei; Sun Rui; Guo Jing; Guo Jie; Min Jie;
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作者单位

Wuhan Univ Inst Adv Studies Wuhan 430072 Hubei Peoples R China;

Wuhan Univ Inst Adv Studies Wuhan 430072 Hubei Peoples R China;

Wuhan Univ Inst Adv Studies Wuhan 430072 Hubei Peoples R China;

Wuhan Univ Inst Adv Studies Wuhan 430072 Hubei Peoples R China;

Wuhan Univ Inst Adv Studies Wuhan 430072 Hubei Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类应用化学;
关键词
donor-acceptor systems; photovoltaic materials; solar cells;

机译：供体受体系统;光伏材料;太阳能电池;

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专利

1. An Oligothiophene-Fullerene Molecule with a Balanced Donor-Acceptor Backbone for High-Performance Single-Component Organic Solar Cells [J] . Wang Wei, Sun Rui, Guo Jing, Angewandte Chemie . 2019,第41期

机译：具有均衡供体 - 受体骨架的低位噻吩 - 富勒烯分子，用于高性能单组分有机太阳能电池
2. Single-Component Non-halogen Solvent-Processed High-Performance Organic Solar Cell Module with Efficiency over 14% [J] . Dong Sheng, Jia Tao, Zhang Kai, Joule . 2020,第9期

机译：单组分非卤素溶剂加工高性能有机太阳能电池模块，效率超过14％
3. A dumbbell-like A-D-A molecule for single-component organic solar cellsf [J] . Jiamin Cao, Xiaoyan Du, Shan Chen Physical chemistry chemical physics: PCCP . 2014,第8期

机译：单组分有机太阳能电池的哑铃状A-D-A分子
4. Fabrication of organic solar cells based on a blend of donor-acceptor molecules by inkjet printing technique [C] . Shafiee Ashkan, Salleh Muhamad Mat, Yahaya Muhammad IEEE International Conference on Semiconductor Electronics . 2008

机译：基于喷墨印刷技术的供体 - 受体分子混合物制备有机太阳能电池
5. Development of Direct Arylation Polymerization Methodologies for Conjugated Copolymers and the Synthesis and Characterization of Indacenodithienothiophene Electron Accepting Molecules for Organic Solar Cells [D] . Aldrich, Thomas Jordan. 2019

机译：用于共轭共聚物的直接芳基化聚合方法的发展及其对有机太阳能电池接受分子的茚磺肽噻吩电子的合成与表征
6. Structure-properties relationships in triarylamine-based donor-acceptor molecules containing naphtyl groups as donor material for organic solar cells [O] . Salma Mohamed, Dora Demeter, Jean-Alex Laffitte, -1

机译：含萘基的三芳胺基供体-受体分子作为有机太阳能电池供体材料的结构-性能关系
7. Backbone Engineering with Asymmetric Core to Finely Tune Phase Separation for High-Performance All-Small-Molecule Organic Solar Cells [O] . -1

机译：具有不对称核心的骨干工程，以精细调谐高性能全小分子有机太阳能电池的相分离

An Oligothiophene-Fullerene Molecule with a Balanced Donor-Acceptor Backbone for High-Performance Single-Component Organic Solar Cells

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