Realization of synaptic learning and memory functions in Y<sub>2</sub>O<sub>3</sub>based memristive device fabricated by dual ion beam sputtering

Das, Mangal; Kumar, Amitesh; Singh, Rohit; Htay, Myo Than; Mukherjee, Shaibal

doi:10.1088/1361-6528/aaa0eb

Cited by 54 publications

(66 citation statements)

References 43 publications

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“…At last, the Ag/V 2 C/TiO 2 /W structural devices were stimulated by modulating pulses to simulate the behaviors of biological synapses. In brief, the conductance value of the device responded to a successive positive and negative pulses, and the synaptic plasticity of LTP and LTD were successfully implemented [13], [28], [29]. During the entire measurement process, the pulse width and interval were both 20 ms.…”

Section: Resultsmentioning

confidence: 99%

V₂C-Based Memristor for Applications of Low Power Electronic Synapse

Zhang

Tao

et al. 2021

IEEE Electron Device Lett.

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Transition metal carbide/nitride (MXenes) have attracted widespread attention in recent years due to their unique structure and excellent electrochemical performance. In addition, MXene materials have adjustable interlayer spacing as well as rich functional groups on the bonding end, which provides great potential to enhance the performance of energy devices. However, three-atoms V 2 Cbased MXene was rarely investigated for memristors and its effects on devices are still unknown. In this work, we synthesized V 2 C MXene and fabricated Ag/V 2 C/TiO 2 /W structural memristors. The advantages of V 2 C on memristors were explored including the coexistence of volatile threshold switching (TS) and non-volatile memory switching (MS) behaviors, low Set and Reset voltages, and small cycle-tocycle and device-to-device variations. Moreover, the space charge limited current (SCLC) model is the dominant switching mechanism. Additionally, two types of synaptic plasticity, i.e., long-term potentiation/depression (LTP/LTD), have been achieved by continuous pulse stimulations. These results in this study are of great significance for disclosing the possibilities of low power electronic synapses with V 2 C. Index Terms-V 2 C MXene, low set and reset voltages, space charge limited current, electronic synapses. I. INTRODUCTION W ITH Moore's Law approaching its end, people are willing to discover some new types of microelectronic devices based on new materials or structures to replace traditional logic devices [1]-[3]. In this circumstance, memristor

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Section: Resultsmentioning

confidence: 99%

V₂C-Based Memristor for Applications of Low Power Electronic Synapse

Zhang

Tao

et al. 2021

IEEE Electron Device Lett.

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“…Furthermore, Y 2 O 3 has emerged as a promising active material for preparing RRAM devices [ 10 , 11 , 12 ]. Forming-free RRAM devices can be prepared using oxygen vacancy (O v )–rich Y 2 O 3 [ 13 , 14 ]. The forming process requires an additional large voltage for the initial conductive filament (CF), occasionally resulting in electrode destruction.…”

Section: Introductionmentioning

confidence: 99%

Enhanced Switching Reliability of Sol–Gel-Processed Y2O3 RRAM Devices Based on Y2O3 Surface Roughness-Induced Local Electric Field

Kim

Lee

et al. 2022

Materials

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Sol–gel-processed Y2O3 films were used as active channel layers for resistive random access memory (RRAM) devices. The fabricated ITO/Y2O3/Ag RRAM devices exhibited the properties of conventional bipolar memory devices. A triethylamine stabilizer with a high vapor pressure and low surface tension was added to realize the local electric field area. During drying and high-temperature post-annealing processes, the large convective flow enhanced the surface elevation, and the increased –OH groups accelerated the hydrolysis reaction and aggregation. These phenomena afforded Y2O3 films with an uneven surface morphology and an increased surface roughness. The increased roughness of the Y2O3 films attributable to the triethylamine stabilizer enhanced the local electrical field, improved device reliability, and achieved successful repetition of the switching properties over an extended period.

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“…Memristive devices have been considered one of the most promising candidates as a synaptic device thanks to their simple structure, low operating voltage, and fast switching speed, and the resistive switching behaviors by the redox reaction of oxide-based materials such as TiOx, TaOx, WOx, AlOx, HfOx, and PrxCa1-xMnO3 (PCMO) have been demonstrated [22][23][24][25][26][27][28][29][30]. In general, digital and analog switching behaviors in a memristive device can be obtained through the formation and rupture of conducting filaments by redox reactions and by oxidation-reduction or charge trapping-detrapping, respectively.…”

Section: Introductionmentioning

confidence: 99%

Digital and Analog Switching Characteristics of InGaZnO Memristor Depending on Top Electrode Material for Neuromorphic System

et al. 2020

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In this study, we demonstrate both of digital and analog memory operations in InGaZnO (IGZO) memristor devices by controlling the electrode materials for neuromorphic application. The switching properties of the devices are determined by the initial energy barrier characteristics between the metal electrodes and the IGZO switching layer. Digital switching characteristics are obtained after the forming process when Schottky junction occurs at both of top and bottom electrodes. On the other hands, analog resistive switching is achieved when Schottky and Ohmic junctions exist at each side because the applied voltage modulates the Schottky barrier height through the Ohmic contact. In addition, the weightupdate properties of the devices are verified depending on identical and incremental pulse schemes. The incremental pulse trains improve the linearity and variation of weight modulation, leading to the stable learning characteristics of neuromorphic system in terms of pattern recognition with MNIST handwritten digit images.

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Realization of synaptic learning and memory functions in Y₂O₃based memristive device fabricated by dual ion beam sputtering

Cited by 54 publications

References 43 publications

V₂C-Based Memristor for Applications of Low Power Electronic Synapse

V₂C-Based Memristor for Applications of Low Power Electronic Synapse

Enhanced Switching Reliability of Sol–Gel-Processed Y2O3 RRAM Devices Based on Y2O3 Surface Roughness-Induced Local Electric Field

Digital and Analog Switching Characteristics of InGaZnO Memristor Depending on Top Electrode Material for Neuromorphic System

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Realization of synaptic learning and memory functions in Y2O3based memristive device fabricated by dual ion beam sputtering

Cited by 54 publications

References 43 publications

V₂C-Based Memristor for Applications of Low Power Electronic Synapse

V₂C-Based Memristor for Applications of Low Power Electronic Synapse

Enhanced Switching Reliability of Sol–Gel-Processed Y2O3 RRAM Devices Based on Y2O3 Surface Roughness-Induced Local Electric Field

Digital and Analog Switching Characteristics of InGaZnO Memristor Depending on Top Electrode Material for Neuromorphic System

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Realization of synaptic learning and memory functions in Y₂O₃based memristive device fabricated by dual ion beam sputtering