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Flexible Artificial Sensory Systems Based on Neuromorphic Devices; ACS Nano, 2021, 15, 3, 3875–3899

Fuqin Sun; Qifeng Lu; Simin Feng; Ting Zhang*;

Abstract: Power generation from working environments involving a time-dependent variation in the ion concentration of the aqueous solution is greatly preferred for many applications. Evaporation-induced hydrovoltaic effect has been demonstrated to serve as a clean, renewable, and sustainable power source, however, such an electricity generation approach is only limited to relatively low ion concentration of fluids. On the other hand, the primary battery is capable of harvesting energy under high salinity conditions, but it becomes ineffective at the low ion concentration. To circumvent the tradeoff, herein we report on the design of a flexible dual-mode electricity nanogenerator (DM-ENG) that can harvest energy from a dynamically-changing aqueous solution. Distinct from existing studies, our DM-ENG is constructed on a highly porous carbon black/PVA film bounded with negatively charged groups, in which the top part is modified as hydrophobic and the bottom being hydrophilic. We show that the generator maintains sustained performances in a wide range of ion concentrations over 10 orders of magnitude. Moreover, the flexible generator exhibits excellent mechanical stability, and can be scaled-up, as evidenced by the output of ~101.07 V by the integration of 100 power generators (seawater, 21 ◦C, 55% RH).

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Full Paper: https://pubs.acs.org/doi/10.1021/acsnano.0c10049