Electronic Structure of the Perylene-Zinc Oxide Interface: Computational Study of Photoinduced Electron Transfer and Impact of Surface Defects

Jingrui Li; Hong Li; Paul Winget; Jean Luc Brédas

doi:10.1021/acs.jpcc.5b03596

Electronic Structure of the Perylene-Zinc Oxide Interface: Computational Study of Photoinduced Electron Transfer and Impact of Surface Defects

Jingrui Li
, Hong Li
, Paul Winget
, Jean Luc Brédas

Georgia Institute of Technology
Aalto University
King Abdullah University of Science and Technology

科研成果: 期刊稿件 › 文章 › 同行评审

11 引用（Scopus）

摘要

The electronic properties of dye-sensitized semiconductor surfaces consisting of perylene chromophores chemisorbed on zinc oxide via different spacer-anchor groups have been studied at the density-functional-theory level. The energy distributions of the donor states and the rates of photoinduced electron transfer from dye to surface are predicted. We evaluate in particular the impact of saturated versus unsaturated aliphatic spacer groups inserted between the perylene chromophore and the semiconductor as well as the influence of surface defects on the electron-injection rates.

源语言	英语
页（从-至）	18843-18858
页数	16
期刊	Journal of Physical Chemistry C
卷	119
期	33
DOI	https://doi.org/10.1021/acs.jpcc.5b03596
出版状态	已出版 - 20 8月 2015
已对外发布	是

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abstract = "The electronic properties of dye-sensitized semiconductor surfaces consisting of perylene chromophores chemisorbed on zinc oxide via different spacer-anchor groups have been studied at the density-functional-theory level. The energy distributions of the donor states and the rates of photoinduced electron transfer from dye to surface are predicted. We evaluate in particular the impact of saturated versus unsaturated aliphatic spacer groups inserted between the perylene chromophore and the semiconductor as well as the influence of surface defects on the electron-injection rates.",

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AU - Brédas, Jean Luc

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AB - The electronic properties of dye-sensitized semiconductor surfaces consisting of perylene chromophores chemisorbed on zinc oxide via different spacer-anchor groups have been studied at the density-functional-theory level. The energy distributions of the donor states and the rates of photoinduced electron transfer from dye to surface are predicted. We evaluate in particular the impact of saturated versus unsaturated aliphatic spacer groups inserted between the perylene chromophore and the semiconductor as well as the influence of surface defects on the electron-injection rates.

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Electronic Structure of the Perylene-Zinc Oxide Interface: Computational Study of Photoinduced Electron Transfer and Impact of Surface Defects

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