Fanhao Meng scite author profile

demonstrated that the memristive devices exhibit many promising features, [3][4][5][6][7][8] such as non-volatility, high speed switching, high endurance, high-density integration, CMOS-compatible fabrication, and so on. These features make them ideal candidates for applications in memory devices, [3,5,9] in-memory computing, [3,[10][11][12] and edge computing. [13,14] The working principle of the TMOs-based memristive devices relies on ion drift or diffusion, which resembles motion of ions in the biological neurons and synapses. The ionic motions exhibit dynamic behaviors. Thus, the memristive devices can be used to emulate the synaptic plasticity [15] and neurons. [16][17][18] Compared to traditional silicon synapses [19][20][21] and neurons [22,23] requiring complex circuits, such emerging memristive devices have compact structures and enhanced func-

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Continuous manipulation of magnetic anisotropy in a van der Waals ferromagnet via electrical gating

Tang

Huang

Qin

et al. 2022

Nat Electron

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Berry curvature dipole generation and helicity-to-spin conversion at symmetry-mismatched heterointerfaces

et al. 2023

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Fanhao Meng

2D Layered Materials for Memristive and Neuromorphic Applications

Continuous manipulation of magnetic anisotropy in a van der Waals ferromagnet via electrical gating

Berry curvature dipole generation and helicity-to-spin conversion at symmetry-mismatched heterointerfaces

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