Dual-Platform Single-Molecule Redox-Targeting Reaction in Neutral Anthraquinone Flow Batteries

氧化还原 流动电池 储能 化学 纳米技术 法拉第效率 水溶液 电池(电) 光化学 材料科学 化学工程 无机化学 有机化学 电极 电化学 物理化学 电解质 物理 工程类 功率(物理) 量子力学
作者
Jin Ma,Yichong Cai,Sida Rong,Mengqi Zhang,Jianing Zhang,Han Zheng,Shi-Qi Liu,Wenyin Yang,Changkun Zhang,Feifei Zhang,Ya Ji
出处
期刊:ACS Nano [American Chemical Society]
卷期号:19 (30): 27538-27551 被引量:3
标识
DOI:10.1021/acsnano.5c06747
摘要

Aqueous organic redox flow batteries (AORFBs) represent a promising technology for large-scale energy storage due to their high abundance in nature, safety, cost-effectiveness, and flexibility in molecular design. However, AORFBs suffer from a low energy density and unsatisfactory stability. Herein, we report a pH-neutral and high-energy-density anthraquinone-based flow battery utilizing a redox-targeting (RT) concept. Interestingly, single-molecule redox-targeting (SMRT) reaction with two voltage plateaus is successfully designed between redox mediator (RM) anthraquinone-2,7-disulfonic acid disodium salt (2,7-AQDS) and solid material poly(2,5-dihydroxy-1,4-benzoquinone-3,6-methylene) (PDBM) harnessing proton-coupled electron transfer, combining the advantages of both SMRT and dual-RM RT systems. The neutral RT flow battery in this work exhibits impressive performance with a series of excellent results including a high volumetric capacity of 97.1 Ah L-1 (based on the volume of anolyte, 14.22 times that of blank RFB), a coulombic efficiency of 99.99%, a capacity retention of 99.9% per cycle, and solid material utilization of 92.5%. Inspiringly, operando nuclear magnetic resonance and ultraviolet-visible spectroscopy are employed to dynamically monitor the solid-liquid interface between PDBM and AQDS during battery cycling, successfully demonstrating the two reversible redox-targeting reaction processes. This work develops a neutral, energy-dense aqueous organic redox flow battery, extensively elucidating the fundamental mechanism of the dual-plateau SMRT reaction, presenting a promising solution to large-scale long-duration energy storage.
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