由单源前驱体制备的硅锗纳米线的电学和结构特性

Electrical and Structural Properties of SiGe Nanowires Prepared from a Single-Source Precursor.

作者信息

Behrle Raphael, Krause Vanessa, Seifner Michael S, Köstler Benedikt, Dick Kimberly A, Wagner Matthias, Sistani Masiar, Barth Sven

机构信息

Institute of Solid State Electronics, TU Wien, Gußhausstraße 25-25a, 1040 Vienna, Austria.

Institute of Physics, Goethe University Frankfurt, Max-von-Laue-Str. 1, 60438 Frankfurt, Germany.

出版信息

Nanomaterials (Basel). 2023 Feb 4;13(4):627. doi: 10.3390/nano13040627.

DOI:10.3390/nano13040627

PMID:36838995

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9963966/

Abstract

SiGe nanowires (NWs) were prepared by gold-supported chemical vapor deposition (CVD) using a single-source precursor with preformed Si-Ge bonds. Besides the tamed reactivity of the precursor, the approach reduces the process parameters associated with the control of decomposition characteristics and the dosing of individual precursors. The group IV alloy NWs are single crystalline with a constant diameter along their axis. During the wire growth by low pressure CVD, an Au-containing surface layer on the NWs forms by surface diffusion from the substrate, which can be removed by a combination of oxidation and etching. The electrical properties of the SiGe/Au core-shell NWs are compared to the SiGe NWs after Au removal. Core-shell NWs show signatures of metal-like behavior, while the purely semiconducting NWs reveal typical signatures of intrinsic SiGe. The synthesized materials should be of high interest for applications in nano- and quantum-electronics.

摘要

通过使用具有预先形成的硅锗键的单源前驱体的金辅助化学气相沉积（CVD）制备了硅锗纳米线（NWs）。除了前驱体反应活性得到控制外，该方法还减少了与分解特性控制和单个前驱体剂量相关的工艺参数。IV族合金纳米线沿其轴具有恒定直径，为单晶结构。在通过低压CVD进行线生长过程中，纳米线上的含Au表面层通过从衬底的表面扩散形成，可通过氧化和蚀刻相结合的方式去除。将硅锗/金核壳纳米线的电学性质与去除金后的硅锗纳米线进行了比较。核壳纳米线表现出类金属行为的特征，而纯半导体纳米线则显示出本征硅锗的典型特征。合成材料对于纳米和量子电子学应用应该具有很高的价值。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7510/9963966/e3a4cd7f7d6a/nanomaterials-13-00627-g001.jpg

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由单源前驱体制备的硅锗纳米线的电学和结构特性

Electrical and Structural Properties of SiGe Nanowires Prepared from a Single-Source Precursor.

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