Theoretical modifications of the molecular structure of Aurantinidin and Betanidin dyes to improve their efficiency as dye-sensitized solar cells

Aanuoluwapo Raphael Obasuyi; Daniel Glossman-Mitnik; Norma Flores-Holguin

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Theoretical modifications of the molecular structure of Aurantinidin and Betanidin dyes to improve their efficiency as dye-sensitized solar cells

机译：一种抗原蛋白和Betanidin染料分子结构的理论修饰，提高效率为染料敏化太阳能电池

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Two modifications of the molecular structures of Aurantinidin and Betanidin dyes were modeled, and the optical and electrical properties were calculated by using density functional theory (DFT) and time-dependent DFT (TD-DFT). The modification of the structures was done by connecting the units through vinyl groups and using regular electron acceptor and electron donor moieties to the original structures. It has been demonstrated that the modifications improved the electron injection properties of the molecules with higher light-harvesting efficiencies, an increase in the driving force of electron injection (ΔG_(inject)), better regeneration energies (ΔG_(reg)) and open-circuit photovoltages (V_(OC)).

机译：模拟了菌射素和β霉素染料的分子结构的两种修饰，通过使用密度官能理论（DFT）和时间依赖性DFT（TD-DFT）计算光学和电性能。通过将单元通过乙烯基连接并使用普朗的电子受体和电子给体部分到原始结构来完成结构的改性。已经证明，修饰改善了具有较高的光收获效率的分子的电子注入特性，电子注入驱动力（ΔG_（注射）），更好的再生能量（ΔG_（reg））和开放 - 电路光伏（V_（OC））。

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来源
《Journal of Computational Electronics 》 |2020年第2期| 507-515| 共9页
作者
Aanuoluwapo Raphael Obasuyi; Daniel Glossman-Mitnik; Norma Flores-Holguin;
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作者单位

Laboratorio Virtual NANOCOSMOS Departamento de Medio Ambiente y Energia Centro de Investigation en Materiales Avanzados 31136 Chihuahua Chih Mexico;

Laboratorio Virtual NANOCOSMOS Departamento de Medio Ambiente y Energia Centro de Investigation en Materiales Avanzados 31136 Chihuahua Chih Mexico;

Laboratorio Virtual NANOCOSMOS Departamento de Medio Ambiente y Energia Centro de Investigation en Materiales Avanzados 31136 Chihuahua Chih Mexico;

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原文格式 PDF
正文语种 eng
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关键词
DSSC; DFT; TD-DFT; Electron injection; Frontier molecular orbitals;

机译：DSSC;DFT;TD-DFT;电子注射;前分子分子轨道;

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Theoretical modifications of the molecular structure of Aurantinidin and Betanidin dyes to improve their efficiency as dye-sensitized solar cells

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