钙钛矿相关的 (CHNH)SbBr 用于无形成的忆阻器和低能耗的神经形态计算。

Perovskite-related (CHNH)SbBr for forming-free memristor and low-energy-consuming neuromorphic computing.

机构信息

School of Chemical Engineering, Energy Frontier Laboratory, Sungkyunkwan University, Suwon 16419, Korea.

出版信息

Nanoscale. 2019 Mar 28;11(13):6453-6461. doi: 10.1039/c8nr09918a.

Abstract

Organic-inorganic halide perovskite materials exhibit excellent memristive properties, such as a high on/off ratio and low switching voltage. However, most studies have focused on Pb-based perovskites. Here, we report on the resistive switching and neuromorphic computing properties of Pb-free perovskite-related MA3Sb2Br9 (MA = CH3NH3). The Ag/PMMA/MA3Sb2Br9/ITO devices show forming-free characteristics due to a self-formed conducting filament induced by metallic Sb present in the as-prepared MA3Sb2Br9 layer. An MA3Sb2Br9-based memristor exhibits a reliable on/off ratio (∼102), an endurance of 300 cycles, a retention time of ∼104 s and multilevel storage characteristics. Furthermore, synaptic characteristics, such as short-term potentiation, short-term depression and long-term potentiation, are revealed along with a low energy-consumption of 117.9 fJ μm-2, which indicates that MA3Sb2Br9 is a promising material for neuromorphic computing.

摘要

有机-无机卤化物钙钛矿材料表现出优异的忆阻性能，例如高导通/关断比和低开关电压。然而，大多数研究都集中在 Pb 基钙钛矿上。在这里，我们报告了无 Pb 钙钛矿相关的 MA3Sb2Br9（MA = CH3NH3）的电阻开关和神经形态计算特性。Ag/PMMA/MA3Sb2Br9/ITO 器件由于在制备的 MA3Sb2Br9 层中存在金属 Sb 而自形成的导电丝而表现出无形成特征。基于 MA3Sb2Br9 的忆阻器表现出可靠的导通/关断比（约 102）、300 个循环的耐久性、约 104 s 的保持时间和多级存储特性。此外，还揭示了突触特性，如短期增强、短期抑制和长期增强，以及 117.9 fJ μm-2 的低能耗，这表明 MA3Sb2Br9 是一种有前途的神经形态计算材料。

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钙钛矿相关的 (CHNH)SbBr 用于无形成的忆阻器和低能耗的神经形态计算。

Perovskite-related (CHNH)SbBr for forming-free memristor and low-energy-consuming neuromorphic computing.

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