Kangqiang Pan scite author profile

Artificial synapses are vital for neuromorphic computing chips that can potentially revolutionize von Neumann systems. Biomaterials‐based bio‐memristors have been investigated as synaptic emulators to develop neuromorphic computing chips due to their biocompatibility, degradability, flexibility, and low costs. However, the existing biomaterials‐based artificial synapses suffer from limited biological synapse functions, insufficient reliability, and poor endurance. Particularly, protein‐based artificial synapse with stable synaptic performances of long‐term potentiation/depression (LTP/LTD) for neuromorphic computing is challenging. Here, the soft material of egg albumen@CuO are employed to develop an artificial synapse. The device can mimic bio‐synaptic functionalities, including the excitatory postsynaptic current (EPSC), spike‐number‐dependent plasticity (SNDP), paired‐pulse facilitation (PPF), and LTP/LTD. High accuracy of 95% has been obtained by the neuromorphic computing simulation for pattern recognition. Combining with density functional theory calculations, multiphysics simulations, and electrical measurements, the analog resistive switching mechanism is attributed to electron hopping. In addition, the device is flexible and can be used to develop wearable systems. The results shed light on the biocompatible and wearable neuromorphic computing chips.

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A Novel 2T2R CR-based TCAM Design for High-speed and Energy-efficient Applications

Pan

Tosson

Wang

et al. 2022

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A Novel Cascadable TCAM Using RRAM and Current Race Scheme for High-Speed Energy-Efficient Applications

Pan

Tosson

Wang

et al. 2023

IEEE Trans. Nanotechnology

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Kangqiang Pan

Versatile memristor for memory and neuromorphic computing

Adjustable Leaky-Integrate-and-fire neurons based on memristor-coupled capacitors

Soft Biomaterials Based Flexible Artificial Synapse for Neuromorphic Computing

A Novel 2T2R CR-based TCAM Design for High-speed and Energy-efficient Applications

A Novel Cascadable TCAM Using RRAM and Current Race Scheme for High-Speed Energy-Efficient Applications

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