Two-Terminal Lithium-Mediated Artificial Synapses with Enhanced Weight Modulation for Feasible Hardware Neural Networks

Baek, Ji Hyun; Kwak, Kyung Ju; Kim, Seung Ju; Shokouhimehr, Mohammadreza; Kim, Jae Young; Im, In Hyuk; Lee, Sun Young; Kim, Soo Young; Jang, Ho Won

doi:10.1007/s40820-023-01035-3

Cited by 23 publications

(6 citation statements)

References 73 publications

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“…This unique property positions memristors as potential solutions for scaling towards high-density, multilevel NVM, and adaptive networks [270]. These attributes have prompted substantial research into non-volatile memory based on various mechanisms [271][272][273][274]. Notably, FTJs are subject to active investigation for their memristive characteristics.…”

Section: Memristive Characteristic Of Ftjsmentioning

confidence: 99%

Ferroelectric tunnel junctions: promise, achievements and challenges

Park,

Lee,

Park

et al. 2024

J. Phys. D: Appl. Phys.

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Ferroelectric tunnel junctions (FTJs) have been the subject of ongoing research interest due to its fast operation based on the spontaneous polarization direction of ultrathin ferroelectrics and its simple two-terminal structure. Due to the advantages of FTJs, such as non-destructive readout, fast operation speed, low energy consumption, and high-density integration, they have recently been considered a promising candidate for non-volatile next-generation memory. These characteristics are essential to meet the increasing demand for high-performance memory in modern computing systems. In this review, we explore the basic principles and structures of FTJs and clarify the elements necessary for the successful fabrication and operation of FTJs. Then, we focus on the recent progress in perovskite oxide, fluorite, 2-dimensional van der Waals, and polymer-based FTJs and discuss ferroelectric materials expected to be available for FTJs use in the future. We highlight various functional device applications, including non-volatile memories, crossbar arrays, and synapses, utilizing the advantageous properties of ferroelectrics. Lastly, we address the challenges that FTJ devices currently face and propose a direction for moving forward.

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Section: Memristive Characteristic Of Ftjsmentioning

confidence: 99%

Ferroelectric tunnel junctions: promise, achievements and challenges

Park,

Lee,

Park

et al. 2024

J. Phys. D: Appl. Phys.

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“…Recently, efforts have been made to address the issues of conventional oxygen ion-based memristors by utilizing alkali ions with high mobility within solids as the primary agents for RS. ,,− At the early stage, reported research was limited due to difficulties in controlling lithium composition, contamination issues in the deposition process, and poor retention characteristics expected by the high mobility of Li ions in solids. The main question was whether Li-ion-based memristors could achieve good retention characteristics.…”

Section: Alkali Ion-based Memristorsmentioning

confidence: 99%

Interface-Type Ionic Memristor for Energy-Efficient Neuromorphic Hardware

Yoo,

Lee

2024

ACS Appl. Electron. Mater.

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Recently, hyperscale artificial intelligence (AI) has been undergoing rapid development at an astonishing pace. These hyperscale AIs based on deep neural networks (DNNs) require significant amounts of matrix-vector multiplication operations for learning and inference and are known to consume substantial amounts of power. Currently, digital accelerators such as graphic processing units and neural processing units are used to perform these operations. However, developing accelerators for DNNs that are more energy efficient and capable of faster processing is becoming increasingly essential. Analog in-memory computing (or neuromorphic hardware) technologies using crossbar array architecture and memristor devices are expected to be the most efficient hardware for DNN operations. This topical article aims to introduce, from the perspective of electronic materials (memristors), the technical challenges in developing neuromorphic hardware and the alkali ion-based memristor devices designed to overcome these challenges.

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“…Biological synapses release neurotransmitters to regulate the communication between neurons, and this process can be emulated by artificial devices employing mobile ions to control synaptic weight [24]. The synaptic behavior of interface RS in the Ag 2 S-based memristor is further studied.…”

Section: Neuromorphic Behavior Of Interface Resistance-switchingmentioning

confidence: 99%

Interface resistance-switching with reduced cyclic variations for reliable neuromorphic computing

Zhu,

Liang,

Shi

et al. 2023

J. Phys. D: Appl. Phys.

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As a synaptic device candidate for artificial neural networks (ANNs), memristor holds great promise for efficient neuromorphic computing. However, commonly used filamentary memristors normally exhibit large cyclic variations due to the stochastic nature of filament formation and ablation, which will inevitably degrade the computing accuracy. Here we demonstrate, in nanoscale Ag2S-based memristors, that resistance-switching (RS) at the contact interface can be a promising solution to reduce cyclic variations. When the Ag2S memristor is operated with filament-free interface RS via Schottky barrier height modification at the contact interface, it shows an ultra-small cycle-to-cycle variation of 1.4% during 104 switching cycles. This is in direct contrast to the variation (28.9%) of filament RS extracted from the same device. Interface RS can also emulate synaptic functions and psychological behavior. Its improved learning ability over filament RS, with a higher saturated accuracy approaching 99.6 %, is finally demonstrated in a simplified ANN.

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Two-Terminal Lithium-Mediated Artificial Synapses with Enhanced Weight Modulation for Feasible Hardware Neural Networks

Cited by 23 publications

References 73 publications

Ferroelectric tunnel junctions: promise, achievements and challenges

Ferroelectric tunnel junctions: promise, achievements and challenges

Interface-Type Ionic Memristor for Energy-Efficient Neuromorphic Hardware

Interface resistance-switching with reduced cyclic variations for reliable neuromorphic computing

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