纳米银掺杂a型明胶薄膜的电阻开关记忆效应及其传导机理

2018 Open Innovations Conference (OI) Pub Date : 2018-10-01 DOI:10.1109/OI.2018.8535678

S. Vallabhapurapu, S. Du, T. S. Mahule, N. Chaure, V. Srinivasu, Ashwini Roham, C. Tu, A. Srinivasan

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引用次数: 1

摘要

介绍了纳米银明胶(AgG)复合薄膜的导电机理和双极电阻开关的观察。将不同浓度的市售银纳米颗粒(0.3 w/v%， 0.5 w/v%， 0.7 w/v%)掺入明胶中，并将AgG薄膜自旋涂覆在ITO衬底上。我们对这些薄膜的I- V特性进行了系统的研究。0.5 w/v%的薄膜在6 v时电流突然增加，开/关比大于3个数量级。此外，当纳米粒子浓度为0.5和0.7w/ V %时，I- V特性表现为o型滞后和跳变导电。然而，对于浓度极低的银(0.3 w/v%)，导电是欧姆型的

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Resistive Switching Memory Effect and Conduction Mechanism in Nano-Silver Incorporated Type-A Gelatin Films

This paper presents the conduction mechanisms and the observation of bipolar resistive switching in nano silver incorporated gelatin (AgG) composite films. Different concentrations of commercially purchased silver nanoparticles (0.3 w/v%, 0.5 w/v%, 0.7 w/v%) were incorporated in gelatin and AgG films were spin-coated on ITO substrates. We did systematic study of I- V characteristics in these films. The film with 0.5 w/v% exhibits an abrupt increase in current at 6 V with ON/OFF ratio of more than 3 orders of magnitude. Further, the I- V characteristics revealed O-type hysteresis behaviour along with hopping type of conduction for higher nano particle concentrations of 0.5 and 0.7w/v%. However, for much dilute concentration of Ag (0.3 w/v%), the conduction is of ohmic type

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2018 Open Innovations Conference (OI)

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