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Nonvolatile Electrochemical Random‐Access Memory under Short Circuit

Diana S. Kim, Virgil J. Watkins, Laszlo A. Cline, Jingxian Li, Kai Sun, Joshua D. Sugar, Elliot J. Fuller, A. Alec Talin, Yiyang Li

2022Advanced Electronic Materials25 citationsDOIOpen Access PDF

Abstract

Abstract Electrochemical random‐access memory (ECRAM) is a recently developed and highly promising analog resistive memory element for in‐memory computing. One longstanding challenge of ECRAM is attaining retention time beyond a few hours. This short retention has precluded ECRAM from being considered for inference classification in deep neural networks, which is likely the largest opportunity for in‐memory computing. In this work, an ECRAM cell with orders of magnitude longer retention than previously achieved is developed, and which is anticipated to exceed ten years at 85 °C. This study hypothesizes that the origin of this exceptional retention is phase separation, which enables the formation of multiple effectively equilibrium resistance states. This work highlights the promises and opportunities to use phase separation to yield ECRAM cells with exceptionally long, and potentially permanent, retention times.

Topics & Concepts

Materials scienceNon-volatile memoryElectrochemistryRandom accessRandom access memoryOptoelectronicsNanotechnologyComputer scienceElectrodeComputer hardwareComputer networkChemistryPhysical chemistryAdvanced Memory and Neural ComputingConducting polymers and applicationsNeuroscience and Neural Engineering
Nonvolatile Electrochemical Random‐Access Memory under Short Circuit | Litcius