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Factors Determining the Resistive Switching Behavior of Transparent InGaZnO‐Based Memristors

Fei Qin, Yuxuan Zhang, Honghwi Park, Chung Soo Kim, Dong‐Hun Lee, Zhong‐Tao Jiang, Jeong-Min Park, Kwangsoo No, Hongsik Park, Han Wook Song, Sunghwan Lee

2022physica status solidi (RRL) - Rapid Research Letters28 citationsDOI

Abstract

The overarching goal herein is to identify the factors dominating the performance of a‐IGZO‐based memristors. Despite the highest on/off ratio, greater than 10 4 with a preferred minimal set/reset bias achieved from a‐IGZO‐based memristors, it is observed that the switching performance and stability/reliability of the devices is significantly dominated by the V O ·· density and metallization material, depending on their reactivity with IGZO. As the first governing factor, ensuring optimal V O ·· concentration in the switching layer IGZO ( V O ·· / O O x ratio 24.3% in this study) is crucial to obtain the tractable formation and rupture of conduction filament. Neither higher nor lower V O ·· density than the optimized results in detrimental reliability issues, which may be ascribed to an uncontrollable filament in an abundant vacancy environment or a weak conducting path, respectively. As the second governing mechanism determining the memristor performance and reliability, it is suggested that metallization materials need to be carefully selected based on the thermodynamic redox potential and interfacial stability of the metallization material with IGZO. Metallization materials with larger reduction potential and interfacial stability are found to yield higher switching on/off ratio and greater device performance reliability.

Topics & Concepts

MemristorReliability (semiconductor)Materials scienceResistive random-access memoryProtein filamentYield (engineering)Stability (learning theory)Layer (electronics)OptoelectronicsReset (finance)Thermal conductionNanotechnologyElectronic engineeringComposite materialThermodynamicsComputer scienceElectrodeChemistryPower (physics)EngineeringPhysicsMachine learningPhysical chemistryFinancial economicsEconomicsAdvanced Memory and Neural ComputingTransition Metal Oxide NanomaterialsFerroelectric and Negative Capacitance Devices
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