Inside Front Cover: Carbon Neutralization, Volume 2, Issue 3, May 2023

Xiaohui Yan, Qihui Guo, Wenxia Huang, Yige Xiong, Siqi Jing, Xin Zhang, Fengyu Huang, Xiang Ge
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Abstract

Inside front cover image: The ambitious goal of cabron neutralization requires the further development of fast energy storage devices like supercapacitors, while the severe self-discharge of conventional electrochemical double-layer capacitors has greatly limited their development. The recent emergence of conjugately configured supercapacitor has brought a new frontier for alleviating self-discharge. In article number CNL255, The researchers explored how the carbon coating strategy, which has already been widely used to modify active materials to enhance conductivity and cycling stability, could introduce profound and complex influence to self-discharge property for active materials specifically used for conjugatedly configured supercapacitors. The proposed conjugated configuration as well as the optimization strategy specifically for such device is expected to provide a general and powerful approach for alleviating self-discharge.

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封面内侧:碳中和,第2卷,第3期,2023年5月
封面图片:碳中和的宏伟目标需要进一步开发超级电容器等快速储能装置,而传统电化学双层电容器的严重自放电极大地限制了它们的发展。最近出现的共轭配置超级电容器为缓解自放电带来了新的前沿。在CNL255号文章中,研究人员探讨了碳涂层策略如何对专门用于共轭配置超级电容器的活性材料的自放电性能产生深远而复杂的影响。碳涂层策略已被广泛用于修饰活性材料以提高导电性和循环稳定性。所提出的共轭配置以及专门针对这种器件的优化策略有望为缓解自放电提供一种通用而强大的方法。
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