通过电子转移激活的界面键形成增强范德华外延

W. Xie, T. Lu, Gwo-Ching Wang, I. Bhat, Shengbai Zhang
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引用次数: 1

摘要

半导体在层状范德华衬底上的增强范德华外延被认为是一种化学键的形成。例如,尽管NbSe2是一种vdW层状材料,但第一线原理计算显示,CdTe-NbSe2界面的键合强度是cdte -石墨烯界面上vdW相互作用的5倍。CdTe表面的Cd悬垂键态有效的净电子转移到金属非键态NbSe2,这是激活Cd增强与Se结合的必要条件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhanced van der Waals epitaxy via electron transfer-enabled interfacial dative bond formation
Enhanced van der Waals (vdW) epitaxy of semiconductors on layered vdW substrate is identified as the formation of dative bonds. For example, despite that NbSe2 is a vdW layered material, first-principles calculations reveal that the bond strength at CdTe-NbSe2 interface is five times as large as that of vdW interaction at CdTe-graphene interface. The unconventional chemistry here is enabled by an effective net electron transfer from Cd dangling-bond states at CdTe surface to metallic non-bonding NbSe2 states, which is a necessary condition to activate the Cd for enhanced binding with Se.
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