化学金属沉积法制备硅纳米线阵列

Xuan Liu, Qingsong Hu
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引用次数: 1

摘要

在常温常压下,以AgNO3和HF溶液为原料,采用EMD法制备了大面积硅纳米线阵列。实验证明,当AgNO3和HF的浓度比为0.02 mol/l: 5mol/l,反应时间为1h时,硅纳米线的均匀性最好。分析了纳米金属颗粒对硅纳米线生长、线径、分布和排列的影响。实验结果表明,在硅片上沉积纳米金属颗粒可以有效地控制硅纳米线的分布和线径,且纳米Au纳米线的均匀性优于纳米Pt纳米线。分析了制备大面积硅纳米线阵列的反应机理,通过与HF反应还原Ag+,去除氧化后的Si溶液。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Preparation of silicon nanowire arrays via electroless metal deposition
Large-area silicon nanowire arrays are prepared successfully with mixed AgNO3 and HF solution by EMD method at normal temperature and pressure. It has been proved the best equality of silicon nanowires can be obtained at the concentration ratio of 0.02 mol/l: 5mol/l for AgNO3 and HF and 1h reaction time. The influence of nano metal particles on the growth, the wire diameter, the distribution and the array of silicon nanowires are analyzed. Experimental results show the distribution and wire diameter of silicon nanowires can be controlled effectively by nano metal particles deposited on silicon wafers, and the equality of silicon nanowires with nano Au particles are better than those with nano Pt particles. The reaction mechanism of preparing large-area silicon nanowire arrays is analyzed as the result of the deoxidization of Ag+ and the removal of the oxidized Si solution by reacting with HF.
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