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Biorealistic Neuronal Temperature-Sensitive Dynamics within Threshold Switching Memristors: Toward Neuromorphic Thermosensation

Akhil Bonagiri, Sujan Kumar Das, Camilo Verbel Marquez, Armando Rúa, Etienne Puyoo, Shimul Kanti Nath, David F. Albertini, Nicolas Baboux, Mutsunori Uenuma, R. G. Elliman, Sanjoy Kumar Nandi

2024ACS Applied Materials & Interfaces11 citationsDOIOpen Access PDF

Abstract

Neuromorphic nanoelectronic devices that can emulate the temperature-sensitive dynamics of biological neurons are of great interest for bioinspired robotics and advanced applications such as in silico neuroscience. In this work, we demonstrate the biomimetic thermosensitive properties of two-terminal V 3 O 5 memristive devices and showcase their similarity to the firing characteristics of thermosensitive biological neurons. The temperature-dependent electrical characteristics of V 3 O 5 -based memristors are used to understand the spiking response of a simple relaxation oscillator. The temperature-dependent dynamics of these oscillators are then compared with those of biological neurons through numerical simulations of a conductance-based neuron model, the Morris–Lecar neuron model. Finally, we demonstrate a robust neuromorphic thermosensation system inspired by biological thermoreceptors for bioinspired thermal perception and representation. These results not only demonstrate the biorealistic emulative potential of threshold-switching memristors but also establish V 3 O 5 as a functional material for realizing solid-state neurons for neuromorphic computing and sensing applications.

Topics & Concepts

Neuromorphic engineeringMemristorMaterials scienceBiological systemComputer scienceRepresentation (politics)Artificial intelligenceNanotechnologyArtificial neural networkElectronic engineeringBiologyEngineeringLawPolitical sciencePoliticsAdvanced Memory and Neural ComputingNeural dynamics and brain functionTransition Metal Oxide Nanomaterials
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