死而复生：将报废超级电容器重新用于电化学海水淡化

IF 5.1 4区材料科学 Q2 ELECTROCHEMISTRY

Batteries & Supercaps Pub Date : 2024-08-27 DOI:10.1002/batt.202400506

Panyu Ren, Mohammad Torkamanzadeh, Stefanie Arnold, Emmanuel Pameté, Volker Presser

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引用次数: 0

摘要

本研究探讨了将报废商用超级电容器重新用作电化学海水淡化电池的潜力，这符合循环经济原则。我们拆解了一个 500 法拉的商用超级电容器，并对其碳电极进行了不同程度的改装。最简单的改造是用 NaOH 酸蚀铝集流器，以产生独立的碳膜。更高级的改性包括二氧化碳活化和添加粘合剂的电极湿处理。通过对低盐度（20 毫摩尔）NaCl 溶液的电容去离子法进行电化学海水淡化电极评估，NaOH 蚀刻碳电极的平均海水淡化能力为 5.8 毫克/克，充电效率为 80%。相比之下，二氧化碳活化的湿处理电极的脱盐能力提高到 7.9 mg g-1，充电效率超过 90%，并且在 20 个周期内性能稳定。这些发现凸显了回收超级电容器用于可持续海水淡化应用的可行性和有效性，为资源回收和再利用以实现环境可持续性提供了一条大有可为的途径。

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Life after death: Re‐purposing end‐of‐life supercapacitors for electrochemical water desalination

This study explores the potential of re‐purposing end‐of‐life commercial supercapacitors as electrochemical desalination cells, aligning with circular economy principles. A commercial 500‐Farad supercapacitor was disassembled, and its carbon electrodes underwent various degrees of modification. The most straightforward modification involved NaOH‐etching of the aluminum current collector to produce free‐standing carbon films. More advanced modifications included CO2 activation and binder‐added wet processing of the electrodes. When evaluated as electrodes for electrochemical desalination via capacitive deionization of low‐salinity (20 mM) NaCl solutions, the minimally modified NaOH‐etched carbon electrodes achieved an average desalination capacity of 5.8 mg g‐1 and a charge efficiency of 80 %. In contrast, the CO2‐activated, wet‐processed electrodes demonstrated an improved desalination capacity of 7.9 mg g‐1 and a charge efficiency above 90 % with stable performance over 20 cycles. These findings highlight the feasibility and effectiveness of recycling supercapacitors for sustainable water desalination applications, offering a promising avenue for resource recovery and re‐purposing in pursuing environmental sustainability.

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来源期刊

Batteries & Supercaps Multiple-

CiteScore

8.60

自引率

5.30%

发文量

223

期刊介绍： Electrochemical energy storage devices play a transformative role in our societies. They have allowed the emergence of portable electronics devices, have triggered the resurgence of electric transportation and constitute key components in smart power grids. Batteries & Supercaps publishes international high-impact experimental and theoretical research on the fundamentals and applications of electrochemical energy storage. We support the scientific community to advance energy efficiency and sustainability.