常压气体放电下空气中硫化银薄膜的合成

Q3 Physics and Astronomy
O. Shuaibov, O. Y. Mynia, O. Malinin, R. Hrytsak, A. Malinina, A. Pogodin, Z. Homoki
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引用次数: 1

摘要

本文给出了由超离子导体硫化银(ag2s)制成的多晶电极在常压下的过压高压纳秒放电特性。在强电场作用下,电极工作表面的不均匀性微爆炸过程中,等离子体中Ag 2s化合物及其解离产物的蒸气由于电子子的形成被引入电极间空间。这为从这种材料合成薄膜创造了先决条件,这种薄膜具有超离子导体和光伏化合物的特性,并且可以沉积在安装在放电间隙中的介电衬底上。研究了纳秒过电压放电的空间和电学性质,以及合成薄膜及其表面的拉曼散射光谱。建立了银硫超导导体蒸汽与空气混合放电等离子体参数的模型。数值计算采用了一个程序,解决了玻尔兹曼方程的电子能量分布函数。根据放电特性研究实验范围1 ~ 1000 Td内E / N参数的取值,计算了放电电子的输运特性和电子过程的速率常数。电极合成薄膜的拉曼散射光谱
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis of Thin Films Based on Silver Sulfide in Air at Atmospheric Pressure in a Gas Discharge
The characteristics of an overvoltage high-voltage nanosecond discharge in air at atmospheric pressure between polycrystalline electrodes made of a superionic conductor, silver sulfide (Ag 2 S), are given. In the process of microexplosions of inhomogeneities on the working surfaces of the electrodes in a strong electric field, vapors of the Ag 2 S compound and its dissociation products in the plasma are introduced into the interelectrode space due to the formation of ectons. This creates prerequisites for the synthesis of thin films from this material, which have the properties of superionic conductors and photovoltaic compounds and can be deposited on a dielectric substrate installed in a discharge gap. Spatial and electrical properties of nanosecond overvoltage discharges and Raman scattering spectra of synthesized thin films and their surfaces were investigated. Discharge plasma parameters were modeled in a mixture of Ag 2 S superionic conductor vapor and air. Numerical calculations were performed using a program that solves the Boltzmann equation for the electron energy distribution function. The transport characteristics of discharge electrons and rate constants of electronic processes were calculated depending on the values of the E / N parameter in the experimental range of 1-1000 Td of the study of discharge properties. Raman light scattering spectra of thin films synthesized from electrode
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来源期刊
Journal of Nano-and electronic Physics
Journal of Nano-and electronic Physics Materials Science-Materials Science (all)
CiteScore
1.40
自引率
0.00%
发文量
69
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