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W4315776819 endingPage "2211720" @default.
W4315776819 startingPage "2211720" @default.
W4315776819 abstract "Non-contact human-machine interaction is the future trend for wearable technologies. This demand is recently highlighted by the pandemic of coronavirus disease (COVID-19). Herein, an anti-fatigue and highly conductive hydrogel thermocell with photo-thermal conversion ability for non-contact self-powering applications is designed. Double hydrogen-bonding enhanced supramolecular hydrogel is obtained with N-acryloyl glycinamide (NAGA) and diacrylate capped Pluronic F68 (F68-DA) via one-step photo-initiated polymerization. The supramolecular hydrogel can accommodate saturated electrolytes to fulfill the triple function of ionic crosslinking, heat-to-electricity conversion, and light response of thermocell. Eminently, the thermocell stands out by virtue of its high seebeck coefficient (-2.17 mV K−1) and extraordinary toughness (Fatigue threshold ≈ 3120 J m−2). The self-powering ability under the control of light heating is explored, and a model of a non-contact “light-remoted” sensor with self-powered and sensing integrated performance remote-controlled by light is constructed. It is believed that this study will pave the way for the non-contact energy supply of wearable devices." @default.
W4315776819 created "2023-01-13" @default.
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W4315776819 date "2023-01-12" @default.
W4315776819 modified "2023-10-15" @default.
W4315776819 title "Double Hydrogen‐bonding Reinforced High‐Performance Supramolecular Hydrogel Thermocell for Self‐powered Sensing Remote‐Controlled by Light" @default.
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W4315776819 doi "https://doi.org/10.1002/adfm.202211720" @default.
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