All‐Organic Rechargeable Battery with Reversibility Supported by “Water‐in‐Salt” Electrolyte

Rechargeable batteries with organic electrodes are preferred to those with transition‐metal‐containing electrodes for their environmental friendliness, and resource availability, but all such batteries reported to date are based on organic electrolytes, which raise concerns of safety and performance...

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Published in:Chemistry : a European journal 2017-02, Vol.23 (11), p.2560-2565
Main Authors: Dong, Xiaoli, Yu, Hongchuan, Ma, Yuanyuan, Bao, Junwei Lucas, Truhlar, Donald G., Wang, Yonggang, Xia, Yongyao
Format: Article
Language:English
Subjects:
all-organic
Aqueous solutions
Batteries
Cathodes
Chemistry
Dianhydrides
Electric batteries
Electrodes
Electrolytes
Lithium
Nonaqueous electrolytes
Oxidation
polyimide
polytriphenylamine
Rechargeable batteries
rechargeable battery
“water-in-salt” electrolyte
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cited_by cdi_FETCH-LOGICAL-c4433-b66305f241394036c11b4ee569b9810db756cd4c3bb2e1d4b562a4e1879d774b3
cites cdi_FETCH-LOGICAL-c4433-b66305f241394036c11b4ee569b9810db756cd4c3bb2e1d4b562a4e1879d774b3
container_end_page 2565
container_issue 11
container_start_page 2560
container_title Chemistry : a European journal
container_volume 23
creator Dong, Xiaoli
Yu, Hongchuan
Ma, Yuanyuan
Bao, Junwei Lucas
Truhlar, Donald G.
Wang, Yonggang
Xia, Yongyao
description Rechargeable batteries with organic electrodes are preferred to those with transition‐metal‐containing electrodes for their environmental friendliness, and resource availability, but all such batteries reported to date are based on organic electrolytes, which raise concerns of safety and performance. Here an aqueous‐electrolyte all‐organic rechargeable battery is reported, with a maximum operating voltage of 2.1 V, in which polytriphenylamine (PTPAn) and 1,4,5,8‐naphthalenetetracarboxylic dianhydride (NTCDA)‐derived polyimide (PNTCDA) serve as cathode and anode material, respectively. A key feature of the design is use of a “water‐in‐salt” electrolyte to bind “free” water; this impedes the side reaction of water oxidation, thereby enabling excellent reversibility in aqueous solution. The battery can deliver a maximum energy density of 52.8 Wh kg−1, which is close to most of the all‐organic batteries with organic electrolytes. The battery exhibits a supercapacitor‐like high power of 32 000 W kg−1 and a long cycle life (700 cycles with capacity retention of 85 %), due to the kinetics not being limited by ion diffusion at either electrode. New battery: An all‐organic rechargeable battery based on polytriphenylamine (PTPAn) and 1,4,5,8‐naphthalenetetracarboxylic dianhydride (NTCDA)‐derived polyimide (PNTCDA) as cathode and anode materials was designed and built by taking advantage of a “water‐in‐salt” electrolyte to impede water oxidation.
doi_str_mv 10.1002/chem.201700063
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ispartof Chemistry : a European journal, 2017-02, Vol.23 (11), p.2560-2565
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1521-3765
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source Wiley
subjects all-organic
Aqueous solutions
Batteries
Cathodes
Chemistry
Dianhydrides
Electric batteries
Electrodes
Electrolytes
Lithium
Nonaqueous electrolytes
Oxidation
polyimide
polytriphenylamine
Rechargeable batteries
rechargeable battery
“water-in-salt” electrolyte
title All‐Organic Rechargeable Battery with Reversibility Supported by “Water‐in‐Salt” Electrolyte
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