Light sensitive memristors based on GeSixOy films with Ge nanoclusters

International Conference on Micro- and Nano-Electronics Pub Date : 2022-01-30 DOI:10.1117/12.2622642

V. Volodin, G. N. Kamaev, I. D. Yushkov, G. Krivyakin, S. Cherkova, M. Vergnat

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引用次数: 2

Abstract

For the development of information technology, more and more memory arrays are needed. Recently, memristors have been the most promising candidates for the creation of modern universal memory. The possibility of light stimulated resistive switching (RS) is promising for creating optical computers, technical vision and neuron networks. The studied SixGeyOz solid alloys films (~50-65 nm) were obtained by simultaneous evaporation of GeO2 and SiO2 (or SiO) powders in high vacuum (10-8 Torr) and deposition onto n+-type, p+-type Si(001), and on Al/SiO2/Si(001) heated up to 100°C. The transparent indium tin oxide (ITO) contacts were used as top electrode. It was found, that as-deposited GeOx[SiO](1-x) films contain amorphous Ge (a-Ge) nanoclusters. The furnace annealing at temperature 500 °C lead to further forming of a-Ge clusters in both types of the films. Reversible (up to several thousand cycles) RS from high resistance state (HRS) to low resistance state (LRS) (memristor effect) were observed for the semiconductor-dielectric-metal structures, namely p+-Si (or n+-Si)/ GeO[SiO2] (or GeO[SiO]) /ITO structures (MIS structures) in air atmosphere. Both negative and positive photoconductivity was observed in the annealed MIS structure when both negative/positive voltage biases were applied to the top ITO electrode. This is possibly due to light-stimulated recharging of holes from a-Ge nanoclusters, which act as deep traps. The effects of light-induced RS was observed for annealed MIS structures based on GeO[SiO] films with a-Ge nanoclusters. These results are promising for creation of photomemristors and optoelectronic devices combining the properties of a memristor.

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基于锗纳米团簇GeSixOy薄膜的光敏忆阻器

随着信息技术的发展，对存储阵列的需求越来越大。近年来，记忆电阻器已成为现代通用存储器最有前途的候选材料。光刺激电阻开关(RS)的可能性在光学计算机、技术视觉和神经元网络的创建方面有很大的前景。将GeO2和SiO2(或SiO)粉末在高真空(10-8 Torr)条件下同时蒸发，并在n+型、p+型Si(001)和Al/SiO2/Si(001)上加热至100℃，得到了所研究的SixGeyOz固体合金薄膜(~50-65 nm)。采用透明氧化铟锡(ITO)触头作为顶电极。结果表明，沉积的GeOx[SiO](1-x)薄膜含有无定形的Ge (a-Ge)纳米团簇。在500℃的退火条件下，两种类型的薄膜都进一步形成了a-Ge团簇。在空气环境中，对p+-Si(或n+-Si)/ GeO[SiO2](或GeO[SiO2])/ ITO结构(MIS结构)的半导体-介电-金属结构，观察到从高阻态(HRS)到低阻态(LRS)(记忆电阻效应)的可逆(高达几千个循环)RS。当在顶部ITO电极上施加负/正电压偏置时，在退火的MIS结构中观察到负和正光导电性。这可能是由于光刺激的a-Ge纳米团簇的空穴充电，它起到了深阱的作用。研究了基于含a-Ge纳米团簇的GeO[SiO]薄膜的退火MIS结构的光诱导RS效应。这些结果为光电光电器件的光电光电器件的制造提供了新的前景。

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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International Conference on Micro- and Nano-Electronics

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