摘要
金刚石纳米线是一种宽禁带的半导体材料,理论研究表明金刚石纳米线具有优异的物理化学性能,如:负的电子亲和势,良好的化学惰性,高的杨氏模量和极高的硬度,以及室温下高的热导率。这些理论研究促使实验有了重要可行的发展目标,通过大量的努力研究,合成金刚石纳米线的方法已经得到了很大的发展,包括离子反应刻蚀、碳纳米管的等离子后处理、高温高压法、模板或催化剂辅助CVD法。本文综述了金刚石纳米线目前的主流制备方法:反应离子刻蚀法和化学气相沉积法,以及金刚石纳米线的应用和研究进展。
Diamond nanowires is a kind of wide band-gap semiconductor materials, theoretical evaluation shows that the diamond nanowires has excellent physical and chemical properties, such as : negative electron affinity, good chemical inertness, high young's modulus and high hardness, and high thermal conductivity at room temperature. These theoretical study prompted experiments with important feasible development goals, through a lot of efforts to study, synthesis of diamond nanowires has got great development,including ion etching, plasma processing of carbon nanotubes, high temperature and high pressure method,template or catalyst assisted CVD method. This paper summarizes the main preparation methods of diamond nanowires : reactive ion etching and chemical vapor deposition method, and the research progress of diamond nanowires.
出处
《功能材料与器件学报》
CAS
2017年第1期28-32,共5页
Journal of Functional Materials and Devices
基金
湖北省教育厅科学技术研究计划优秀中青年人才项目(NO.Q20151517)
武汉工程大学科学研究基金项目(NO.K201506)
关键词
金刚石纳米线
制备方法
研究进展
diamond nanowires
preparation methods
research progress
