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In-situ magnetron sputtering co-deposition of Ge nanoparticles in Si3N4 films for near infrared detection

2021 International Semiconductor Conference (CAS) Pub Date : 2021-10-06 DOI:10.1109/CAS52836.2021.9604124
I. Stavarache, C. Palade, P. Prepelita, V. Teodorescu, M. Ciurea
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Abstract

Deposition of Ge nanoparticles in Si3N4 films by heating Si and quartz substrates at 500 °C were obtained using co-sputtering Ge, and Si3N4. Their structure and photo-electrical behaviour were investigated by transmission electron microscopy, current – voltage and spectral photo-current investigations, respectively. The spectral photoresponse were correlated with microscopy results. Depending on the measuring temperature, the current under illumination increases with about five orders of magnitude compared with the dark one. The photo-current spectra measured in photovoltaic regime and at -1 V show a single cut-off wavelength in near infrared domain at about 1362 nm.
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原位磁控溅射共沉积锗纳米颗粒在近红外检测的Si3N4薄膜
采用共溅射的方法,在500℃下加热Si和石英衬底,在Si3N4薄膜上沉积了Ge纳米颗粒。分别用透射电镜、电流电压和光谱光电流研究了它们的结构和光电行为。光谱光响应与显微镜结果相关。根据测量温度的不同,光照下的电流比黑暗时增加约5个数量级。在光伏和-1 V下测得的光电流谱在近红外域有一个截止波长,约为1362 nm。
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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2021 International Semiconductor Conference (CAS)
2021 International Semiconductor Conference (CAS)
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