High Performance Electron Acceptors Containing Transition Metals | Zendy

Xu Zheng | Zendy; Ding Shuhui | Zendy; Shi Wendi | Zendy; Zhao Wenkai | Zendy; Cao Xiangjian | Zendy; Yao Zhaoyang | Zendy; Guo Yaxiao | Zendy; Long Guankui | Zendy; Li Chenxi | Zendy; Wan Xiangjian | Zendy; Chen Yongsheng | Zendy

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High Performance Electron Acceptors Containing Transition Metals

Author(s) -

Xu Zheng,

Ding Shuhui,

Shi Wendi,

Zhao Wenkai,

Cao Xiangjian,

Yao Zhaoyang,

Guo Yaxiao,

Long Guankui,

Li Chenxi,

Wan Xiangjian,

Chen Yongsheng

Publication year - 2025

Publication title -

angewandte chemie

Language(s) - English

Resource type - Journals

eISSN - 1521-3757

pISSN - 0044-8249

DOI - 10.1002/ange.202504616

Subject(s) - transition metal , electron , chemistry , materials science , chemical physics , nanotechnology , physics , organic chemistry , catalysis , nuclear physics

Abstract A novel molecular platform characteristic of multiple transition metals (CH─Zn, CH─Ni, CH─Pt) on conjugated backbones is first established as high‐performance electron acceptors. The CH─Pt‐based ternary organic photovoltaics render an excellent power conversion efficiency surpassing 20%, more importantly, the unexplored dependency of central metals on intrinsic physicochemical properties of acceptors, nanoscale morphologies of donor/acceptor blends and final photovoltaic outcomes is fully disclosed. By demonstrating such a rare case of metal‐containing acceptor, our work provides insight into whether metal complexes can serve as the building blocks of high‐performance acceptors and gives guidance to rational design of metal‐containing acceptors.

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