Exploring Overall Photoelectric Applications by Organic Materials Containing Symmetric Donor Isomers

Zhaoyang Yao; Xunfan Liao; Yaxiao Guo; Heng Zhao; Yu Guo; Fuguo Zhang; Lin Zhang; Zonglong Zhu; Lars Kloo; Wei Ma; Yiwang Chen; Licheng Sun

doi:10.1021/acs.chemmater.9b02715

Exploring Overall Photoelectric Applications by Organic Materials Containing Symmetric Donor Isomers

Zhaoyang Yao
, Xunfan Liao
, Yaxiao Guo
, Heng Zhao
, Yu Guo
, Fuguo Zhang
, Lin Zhang
, Zonglong Zhu
, Lars Kloo
, Wei Ma
, Yiwang Chen
, Licheng Sun

材料科学与工程学院

KTH Royal Institute of Technology
Donghua University
Jiangxi Normal University
Xi'an Jiaotong University
Central South University
City University of Hong Kong
Dalian University of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

15 引用（Scopus）

摘要

Organic thin-film solar cells have demonstrated a bright prospect for commercial applications, where organic photosensitizers act as the most important kernel. In the global motif of sustainable development, unrelenting research efforts have been devoted to the exploration of organic material containing photosensitizers to achieve low-cost conversion of solar energy to clean electricity. In this work, two star-shaped donor cores, T1 and T2, which consist of fused thiophene triazatruxene, have been synthesized and applied in two different types of solar cells. The two-dimensional π-bonded extension enhances their electron-donating capability and induces relatively strong intermolecular π−π stacking. The C_3h symmetrical donor isomers, featuring planar backbones and three-dimensional structures, are found to contribute toward a promising prospect for overall photoelectric applications.

源语言	英语
页（从-至）	8810-8819
页数	10
期刊	Chemistry of Materials
卷	31
期	21
DOI	https://doi.org/10.1021/acs.chemmater.9b02715
出版状态	已出版 - 12 11月 2019

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10.1021/acs.chemmater.9b02715

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title = "Exploring Overall Photoelectric Applications by Organic Materials Containing Symmetric Donor Isomers",

abstract = "Organic thin-film solar cells have demonstrated a bright prospect for commercial applications, where organic photosensitizers act as the most important kernel. In the global motif of sustainable development, unrelenting research efforts have been devoted to the exploration of organic material containing photosensitizers to achieve low-cost conversion of solar energy to clean electricity. In this work, two star-shaped donor cores, T1 and T2, which consist of fused thiophene triazatruxene, have been synthesized and applied in two different types of solar cells. The two-dimensional π-bonded extension enhances their electron-donating capability and induces relatively strong intermolecular π−π stacking. The C3h symmetrical donor isomers, featuring planar backbones and three-dimensional structures, are found to contribute toward a promising prospect for overall photoelectric applications.",

author = "Zhaoyang Yao and Xunfan Liao and Yaxiao Guo and Heng Zhao and Yu Guo and Fuguo Zhang and Lin Zhang and Zonglong Zhu and Lars Kloo and Wei Ma and Yiwang Chen and Licheng Sun",

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AU - Yao, Zhaoyang

AU - Liao, Xunfan

AU - Guo, Yaxiao

AU - Zhao, Heng

AU - Guo, Yu

AU - Zhang, Fuguo

AU - Zhang, Lin

AU - Zhu, Zonglong

AU - Kloo, Lars

AU - Ma, Wei

AU - Chen, Yiwang

AU - Sun, Licheng

PY - 2019/11/12

Y1 - 2019/11/12

N2 - Organic thin-film solar cells have demonstrated a bright prospect for commercial applications, where organic photosensitizers act as the most important kernel. In the global motif of sustainable development, unrelenting research efforts have been devoted to the exploration of organic material containing photosensitizers to achieve low-cost conversion of solar energy to clean electricity. In this work, two star-shaped donor cores, T1 and T2, which consist of fused thiophene triazatruxene, have been synthesized and applied in two different types of solar cells. The two-dimensional π-bonded extension enhances their electron-donating capability and induces relatively strong intermolecular π−π stacking. The C3h symmetrical donor isomers, featuring planar backbones and three-dimensional structures, are found to contribute toward a promising prospect for overall photoelectric applications.

AB - Organic thin-film solar cells have demonstrated a bright prospect for commercial applications, where organic photosensitizers act as the most important kernel. In the global motif of sustainable development, unrelenting research efforts have been devoted to the exploration of organic material containing photosensitizers to achieve low-cost conversion of solar energy to clean electricity. In this work, two star-shaped donor cores, T1 and T2, which consist of fused thiophene triazatruxene, have been synthesized and applied in two different types of solar cells. The two-dimensional π-bonded extension enhances their electron-donating capability and induces relatively strong intermolecular π−π stacking. The C3h symmetrical donor isomers, featuring planar backbones and three-dimensional structures, are found to contribute toward a promising prospect for overall photoelectric applications.

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Exploring Overall Photoelectric Applications by Organic Materials Containing Symmetric Donor Isomers

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