无机和有机半导体

Gunel Huseynova
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引用次数: 1

摘要

改善有机半导体(OSCs)的电学行为,因为高温会引起晶格振动,并为系统提供所需的热能,为释放被捕获的载流子创造有利的环境。1−3无机半导体的电荷输运机制对温度也很敏感。然而,这对这些材料的性能是极其有害的,因为温度引起的高有序和结晶无机物的晶格振动导致晶格散射和电荷捕获增加,以及载流子迁移率降低
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Inorganic versus organic semiconductors
improvement of the electrical behavior of organic semiconductors (OSCs) as high temperature causes lattice vibrations and provides required thermal energy for the system to create favourable environments for the release of the trapped charge carriers.1−3 The charge transport mechanism of inorganic semiconductors is sensitive to temperature as well. However, it is extremely detrimental to the performance of these materials as the temperature-induced lattice vibrations of the highly-ordered and crystalline inorganic substances lead to increased lattice scattering and trapping of the charges as well as reduced carrier mobility.4
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