全富勒烯基液流电池。

All-Fullerene-Based Cells for Nonaqueous Redox Flow Batteries.

机构信息

Chemistry - School of Natural and Environmental Sciences, Newcastle University , Bedson Building, Newcastle upon Tyne, NE1 7RU, U.K.

Department of Materials, University of Oxford , 16 Parks Road, Oxford, OX1 3PH, U.K.

出版信息

J Am Chem Soc. 2018 Jan 10;140(1):401-405. doi: 10.1021/jacs.7b11041. Epub 2017 Dec 29.

DOI:10.1021/jacs.7b11041

PMID:29232117

Abstract

Redox flow batteries have the potential to revolutionize our use of intermittent sustainable energy sources such as solar and wind power by storing the energy in liquid electrolytes. Our concept study utilizes a novel electrolyte system, exploiting derivatized fullerenes as both anolyte and catholyte species in a series of battery cells, including a symmetric, single species system which alleviates the common problem of membrane crossover. The prototype multielectron system, utilizing molecular based charge carriers, made from inexpensive, abundant, and sustainable materials, principally, C and Fe, demonstrates remarkable current and energy densities and promising long-term cycling stability.

摘要

氧化还原流电池有可能通过将能量储存在液体电解质中来彻底改变我们对间歇性可持续能源（如太阳能和风力发电）的利用方式。我们的概念研究利用了一种新型电解质系统，在一系列电池中利用衍生富勒烯作为阳极和阴极物质，包括一种对称的单一组分系统，缓解了常见的膜交叉问题。该原型多电子系统利用基于分子的电荷载体，由廉价、丰富和可持续的材料，主要是 C 和 Fe 制成，表现出显著的电流和能量密度以及有前景的长期循环稳定性。

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全富勒烯基液流电池。

All-Fullerene-Based Cells for Nonaqueous Redox Flow Batteries.

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