Evolution in the Electronic Structure of Polymer-derived Amorphous Silicon Carbide

Kewei Wang; Xuqin Li; Baisheng Ma; Min Zhang; Jinling Liu; Yiguang Wang; Ligong Zhang; Linan An

doi:10.1111/jace.13598

Evolution in the Electronic Structure of Polymer-derived Amorphous Silicon Carbide

Kewei Wang, Xuqin Li, Baisheng Ma, Min Zhang, Jinling Liu, Yiguang Wang, Ligong Zhang, Linan An^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

14 引用（Scopus）

摘要

The electronic structure of polymer-derived amorphous silicon carbide pyrolyzed at different temperatures was investigated by combining measurements of their temperature-dependent conductivity and optical absorption. By comparing the experimental results with theoretical models, the parameters such as conduction band, band-tail, defect energy, and Fermi energy were determined. The results revealed that band gap and band-tail width decreased with increasing pyrolysis temperature. Furthermore, it was found that electrons transport followed a band-tail hopping mechanism, rather than variable range hopping. These results were discussed in accordance with the microstructural evolutions of the material.

源语言	英语
页（从-至）	2153-2158
页数	6
期刊	Journal of the American Ceramic Society
卷	98
期	7
DOI	https://doi.org/10.1111/jace.13598
出版状态	已出版 - 1 7月 2015
已对外发布	是

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title = "Evolution in the Electronic Structure of Polymer-derived Amorphous Silicon Carbide",

abstract = "The electronic structure of polymer-derived amorphous silicon carbide pyrolyzed at different temperatures was investigated by combining measurements of their temperature-dependent conductivity and optical absorption. By comparing the experimental results with theoretical models, the parameters such as conduction band, band-tail, defect energy, and Fermi energy were determined. The results revealed that band gap and band-tail width decreased with increasing pyrolysis temperature. Furthermore, it was found that electrons transport followed a band-tail hopping mechanism, rather than variable range hopping. These results were discussed in accordance with the microstructural evolutions of the material.",

author = "Kewei Wang and Xuqin Li and Baisheng Ma and Min Zhang and Jinling Liu and Yiguang Wang and Ligong Zhang and Linan An",

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T1 - Evolution in the Electronic Structure of Polymer-derived Amorphous Silicon Carbide

AU - Wang, Kewei

AU - Li, Xuqin

AU - Ma, Baisheng

AU - Zhang, Min

AU - Liu, Jinling

AU - Wang, Yiguang

AU - Zhang, Ligong

AU - An, Linan

PY - 2015/7/1

Y1 - 2015/7/1

N2 - The electronic structure of polymer-derived amorphous silicon carbide pyrolyzed at different temperatures was investigated by combining measurements of their temperature-dependent conductivity and optical absorption. By comparing the experimental results with theoretical models, the parameters such as conduction band, band-tail, defect energy, and Fermi energy were determined. The results revealed that band gap and band-tail width decreased with increasing pyrolysis temperature. Furthermore, it was found that electrons transport followed a band-tail hopping mechanism, rather than variable range hopping. These results were discussed in accordance with the microstructural evolutions of the material.

AB - The electronic structure of polymer-derived amorphous silicon carbide pyrolyzed at different temperatures was investigated by combining measurements of their temperature-dependent conductivity and optical absorption. By comparing the experimental results with theoretical models, the parameters such as conduction band, band-tail, defect energy, and Fermi energy were determined. The results revealed that band gap and band-tail width decreased with increasing pyrolysis temperature. Furthermore, it was found that electrons transport followed a band-tail hopping mechanism, rather than variable range hopping. These results were discussed in accordance with the microstructural evolutions of the material.

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JO - Journal of the American Ceramic Society

JF - Journal of the American Ceramic Society

IS - 7

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Evolution in the Electronic Structure of Polymer-derived Amorphous Silicon Carbide

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