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Embedded Hybrid‐Dimensional Heterointerface for Filament Modulation in 2D Material‐Based Artificial Nociceptor

Chang‐Hsun Huang, T. T. Cheng, Chia‐Yi Wu, Kuan‐Hung Chen, Tian‐Li Wu, Yi‐Chia Chou

2024Advanced Science11 citationsDOIOpen Access PDF

Abstract

Abstract Nociceptors are key sensory receptors that transmit warning signals to the central nervous system in response to painful stimuli. This fundamental process is emulated in an electronic device by developing a novel artificial nociceptor with an ultrathin, nonstoichiometric gallium oxide (GaO x )‐silicon oxide heterostructure. A large‐area 2D‐GaO x film is printed on a substrate through liquid metal printing to facilitate the production of conductive filaments. This nociceptive structure exhibits a unique short‐term temporal response following stimulation, enabling a facile demonstration of threshold‐switching physics. The developed heterointerface 2D‐GaO x film enables the fabrication of fast‐switching, low‐energy, and compliance‐free 2D‐GaO x nociceptors, as confirmed through experiments. The accumulation and extrusion of Ag in the oxide matrix are significant for inducing plastic changes in artificial biological sensors. High‐resolution transmission electron microscopy and electron energy loss spectroscopy demonstrate that Ag clusters in the material dispersed under electrical bias and regrouped spontaneously when the bias is removed owing to interfacial energy minimization. Moreover, 2D nociceptors are stable; thus, heterointerface engineering can enable effective control of charge transfer in 2D heterostructural devices. Furthermore, the diffusive 2D‐GaO x device and its Ag dynamics enable the direct emulation of biological nociceptors, marking an advancement in the hardware implementation of artificial human sensory systems.

Topics & Concepts

NociceptorProtein filamentSensory systemMaterials scienceModulation (music)NanotechnologyProcess (computing)NeuroscienceComputer scienceReceptorNociceptionChemistryBiologyPhysicsAcousticsComposite materialOperating systemBiochemistryAdvanced Memory and Neural ComputingGas Sensing Nanomaterials and Sensors2D Materials and Applications