Состояния кремниевых нано-кластеров, содержащих примеси углерода

Физика и техника полупроводников Pub Date : 2023-01-01 DOI:10.21883/ftp.2023.02.55330.3335

М. Ю. Ташметов, Ш. Махкамов, Ф.Т. Умарова, А Б Нормуродов, Н.Т. Сулайманов, А.В. Хугаев, Х.М. Холмедов

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Abstract

Abstract The structural and electronic states of defective complexes in the Si29 cluster with the participation of carbon and hydrogen atoms were determined by the method of non-conventional strong binding (MNSB) in combination with the method of molecular dynamics. It is shown that carbon atoms in silicon clusters form a bridge bond with two silicon atoms and localized in a hexagonal position at the center of the cell, forming a defect of the Si29:Ci type. The introduction of hydrogen into a silicon cluster results in the formation of a defective Ci-H-Si complex and a decrease of binding energy of the Si29:Ci defect. Based on the calculations, it was found that presence of leads to carbon gives shallow levels in the band gap of nano-silicon, and the defective carbon-hydrogen complex in a hydrogenated cluster, depending on the charge state of the defective complex. Moreover this exhibits both deep and shallow levels.

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含碳的硅纳米集群状态

摘要采用非常规强结合(MNSB)方法结合分子动力学方法测定了碳、氢原子参与的Si29簇中缺陷配合物的结构态和电子态。结果表明，硅簇中的碳原子与两个硅原子形成桥键，并定位于电池中心的六边形位置，形成Si29:Ci型缺陷。在硅簇中引入氢会形成缺陷的Ci- h - si配合物，降低Si29:Ci缺陷的结合能。基于计算，发现碳的存在在纳米硅的带隙中产生较浅的水平，并且在氢化簇中产生缺陷的碳氢配合物，这取决于缺陷配合物的电荷状态。此外，这表现为深层和浅层。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Физика и техника полупроводников

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