Ionic Circuits Powered by Reverse Electrodialysis for an Ultimate Iontronic System

Despite numerous reports on iontronic devices, there has been no whole circuit working in aqueous media including even power source. Herein, we introduce complete ionic circuits powered by reverse electrodialysis (RED) for the first time without employing any electronic components. The RED-driven po...

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Veröffentlicht in:	Scientific reports 2017-10, Vol.7 (1), p.14068-7, Article 14068
Hauptverfasser:	Han, Seok Hee, Kwon, Seung-Ryong, Baek, Seol, Chung, Taek-Dong
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Sprache:	eng
Schlagworte:	142/126 639/301/923/1027 639/638/161 96/34 Circuits Computers Electrodialysis Electrolytes Humanities and Social Sciences Information processing multidisciplinary Salinity Science Science (multidisciplinary) Semiconductors Signal processing Voltage
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creator	Han, Seok Hee Kwon, Seung-Ryong Baek, Seol Chung, Taek-Dong
description	Despite numerous reports on iontronic devices, there has been no whole circuit working in aqueous media including even power source. Herein, we introduce complete ionic circuits powered by reverse electrodialysis (RED) for the first time without employing any electronic components. The RED-driven polyelectrolyte diode successfully shows rectification behavior which is verified by monitoring dynamic ion distribution through fluorescence in real-time. We can also turn on and off the voltage applied to the circuit, and apply an arbitrary voltage by precisely manipulating the pressure imposed to an elastic connection tube filled with electrolyte. Furthermore, this new concept containing ionic power source advances to a more sophisticated ionic OR logic gate. The proposed system paves the way to develop not only passive iontronic devices (e.g. current ionic diode), but active ones requiring a source of energy, particularly such as a neuron-like information processor powered by fully ionic systems, and thereby aqueous computers.
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subjects	142/126 639/301/923/1027 639/638/161 96/34 Circuits Computers Electrodialysis Electrolytes Humanities and Social Sciences Information processing multidisciplinary Salinity Science Science (multidisciplinary) Semiconductors Signal processing Voltage
title	Ionic Circuits Powered by Reverse Electrodialysis for an Ultimate Iontronic System
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