Synergistically Modulating Conductive Filaments in Ion‐Based Memristors for Enhanced Analog In‐Memory Computing

Wang, Jinyong; Ren, Yujing; Yang, Ze; Lv, Qiaoya; Zhang, Yu; Zhang, Mingyue; Zhao, Tiancheng; Gu, Deen; Liu, Fucai; Tang, Baoshan; Yang, Weifeng; Lin, Zhiqun

doi:10.1002/advs.202309538

Advanced Science

2024

DOI: 10.1002/advs.202309538

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Synergistically Modulating Conductive Filaments in Ion‐Based Memristors for Enhanced Analog In‐Memory Computing

Jinyong Wang,

Yujing Ren,

Ze Yang

et al.

Abstract: Memristors offer a promising solution to address the performance and energy challenges faced by conventional von Neumann computer systems. Yet, stochastic ion migration in conductive filament often leads to an undesired performance tradeoff between memory window, retention, and endurance. Herein, a robust memristor based on oxygen‐rich SnO2 nanoflowers switching medium, enabled by seed‐mediated wet chemistry, to overcome the ion migration issue for enhanced analog in‐memory computing is reported. Notably, the … Show more

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2024

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Cited by 3 publications

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Thermally Oxidized Memristor and 1T1R Integration for Selector Function and Low‐Power Memory

Pan,

Zhang,

Liu

et al. 2024

Advanced Science

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Resistive switching memories have garnered significant attention due to their high‐density integration and rapid in‐memory computing beyond von Neumann's architecture. However, significant challenges are posed in practical applications with respect to their manufacturing process complexity, a leakage current of high resistance state (HRS), and the sneak‐path current problem that limits their scalability. Here, a mild‐temperature thermal oxidation technique for the fabrication of low‐power and ultra‐steep memristor based on Ag/TiOx/SnOx/SnSe2/Au architecture is developed. Benefiting from a self‐assembled oxidation layer and the formation/rupture of oxygen vacancy conductive filaments, the device exhibits an exceptional threshold switching behavior with high switch ratio exceeding 106, low threshold voltage of ≈1 V, long‐term retention of >104 s, an ultra‐small subthreshold swing of 2.5 mV decade−1 and high air‐stability surpassing 4 months. By decreasing temperature, the device undergoes a transition from unipolar volatile to bipolar nonvolatile characteristics, elucidating the role of oxygen vacancies migration on the resistive switching process. Further, the 1T1R structure is established between a memristor and a 2H‐MoTe2 transistor by the van der Waals (vdW) stacking approach, achieving the functionality of selector and multi‐value memory with lower power consumption. This work provides a mild‐thermal oxidation technology for the low‐cost production of high‐performance memristors toward future in‐memory computing applications.

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Thermally Oxidized Memristor and 1T1R Integration for Selector Function and Low‐Power Memory

Pan,

Zhang,

Liu

et al. 2024

Advanced Science

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Electrical-Light Coordinately Modulated Synaptic Memristor Based on Ti₃C₂ MXene for Near-Infrared Artificial Vision Applications

Yue,

Sun,

Zhu

et al. 2024

J. Phys. Chem. Lett.

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Emerging optoelectronic memristive devices with high parallelism and low-power consumption have made neuromorphic computing hardware a tangible reality. The coordination of conductivity regulation through both electrical and light signals is pivotal for advancing the development of synaptic memristors with brainlike functionalities. Here, an artificial visual synapse is presented with the Ti 3 C 2 MXene memristor which demonstrates not only the nonvolatile memory effect (Set/Reset: 0.58/−0.55 V; Retention: >10 3 s) and sustained multistage conductivity, but also facile modulation of both electrical-and light-stimulated synaptic behaviors. By adjusting the stimulus parameters, the Ti 3 C 2 MXene enables the realization of biosynaptic excitatory postsynaptic current, sustained conductivity, stable long-term facilitation/depression, paired pulse facilitation, spiking-timing-dependent plasticity, and experiential learning. Particularly, benefiting from the distinguishable photoconductive and memory effects of multiple near-infrared intensities (7−13 mW/ cm 2 ), potential applications in visual nociceptive perception ("threshold", "noadaption", "relaxation") and imaging (e.g., "Superman" cartoon character) in infrared environments are well achieved in such Ti 3 C 2 MXene memristors. These results hold significant implications for the future advancement of integrated optoelectronic sensing, memory, nociception, and imaging systems.

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On-receptor computing with classical associative learning in semiconductor oxide memristors

Ju,

Lee,

Kim

2024

Nanoscale

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Synergistically Modulating Conductive Filaments in Ion‐Based Memristors for Enhanced Analog In‐Memory Computing

Cited by 3 publications

References 76 publications

Thermally Oxidized Memristor and 1T1R Integration for Selector Function and Low‐Power Memory

Thermally Oxidized Memristor and 1T1R Integration for Selector Function and Low‐Power Memory

Electrical-Light Coordinately Modulated Synaptic Memristor Based on Ti₃C₂ MXene for Near-Infrared Artificial Vision Applications

On-receptor computing with classical associative learning in semiconductor oxide memristors

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Synergistically Modulating Conductive Filaments in Ion‐Based Memristors for Enhanced Analog In‐Memory Computing

Cited by 3 publications

References 76 publications

Thermally Oxidized Memristor and 1T1R Integration for Selector Function and Low‐Power Memory

Thermally Oxidized Memristor and 1T1R Integration for Selector Function and Low‐Power Memory

Electrical-Light Coordinately Modulated Synaptic Memristor Based on Ti3C2 MXene for Near-Infrared Artificial Vision Applications

On-receptor computing with classical associative learning in semiconductor oxide memristors

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Product

Resources

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Electrical-Light Coordinately Modulated Synaptic Memristor Based on Ti₃C₂ MXene for Near-Infrared Artificial Vision Applications