Pseudocapacitance-Induced Synaptic Plasticity of Tribo-Phototronic Effect Between Ionic Liquid and 2D MoS 2

Contact-induced electrification, commonly referred to as triboelectrification, is the subject of extensive investigation at liquid-solid interfaces due to its wide range of applications in electrochemistry, energy harvesting, and sensors. This study examines the triboelectric between an ionic liquid...

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Veröffentlicht in:Small (Weinheim an der Bergstrasse, Germany) Germany), 2024-03, Vol.20 (11), p.e2304988
Hauptverfasser: Ahmadi, Ribwar, Abnavi, Amin, Hasani, Amirhossein, Ghanbari, Hamidreza, Mohammadzadeh, Mohammad Reza, Fawzy, Mirette, Kabir, Fahmid, Adachi, Michael M
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container_title Small (Weinheim an der Bergstrasse, Germany)
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creator Ahmadi, Ribwar
Abnavi, Amin
Hasani, Amirhossein
Ghanbari, Hamidreza
Mohammadzadeh, Mohammad Reza
Fawzy, Mirette
Kabir, Fahmid
Adachi, Michael M
description Contact-induced electrification, commonly referred to as triboelectrification, is the subject of extensive investigation at liquid-solid interfaces due to its wide range of applications in electrochemistry, energy harvesting, and sensors. This study examines the triboelectric between an ionic liquid and 2D MoS under light illumination. Notably, when a liquid droplet slides across the MoS surface, an increase in the generated current and voltage is observed in the forward direction, while a decrease is observed in the reverse direction. This suggests a memory-like tribo-phototronic effect between ionic liquid and 2D MoS . The underlying mechanism behind this tribo-phototronic synaptic plasticity is proposed to be ion adsorption/desorption processes resulting from pseudocapacitive deionization/ionization at the liquid-MoS  interface. This explanation is supported by the equivalent electrical circuit modeling, contact angle measurements, and electronic band diagrams. Furthermore, the influence of various factors such as velocity, step size, light wavelength and intensity, ion concentration, and bias voltage is thoroughly investigated. The artificial synaptic plasticity arising from this phenomenon exhibits significant synaptic features, including potentiation/inhibition, paired-pulse facilitation/depression, and short-term memory (STM) to long-term memory (LTM) transition. This research opens up promising avenues for the development of synaptic memory systems and intelligent sensing applications based on liquid-solid interfaces.
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The artificial synaptic plasticity arising from this phenomenon exhibits significant synaptic features, including potentiation/inhibition, paired-pulse facilitation/depression, and short-term memory (STM) to long-term memory (LTM) transition. This research opens up promising avenues for the development of synaptic memory systems and intelligent sensing applications based on liquid-solid interfaces.</description><identifier>ISSN: 1613-6810</identifier><identifier>EISSN: 1613-6829</identifier><identifier>DOI: 10.1002/smll.202304988</identifier><identifier>PMID: 37939305</identifier><language>eng</language><publisher>Germany</publisher><ispartof>Small (Weinheim an der Bergstrasse, Germany), 2024-03, Vol.20 (11), p.e2304988</ispartof><rights>2023 The Authors. 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The artificial synaptic plasticity arising from this phenomenon exhibits significant synaptic features, including potentiation/inhibition, paired-pulse facilitation/depression, and short-term memory (STM) to long-term memory (LTM) transition. 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