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Highly Efficient and Stable Capacitive Deionization Based on a Flower-Like Conjugated Polymer with Double Active-Sites
Zhiyun Zhuang Lei Sun Yueheng Tao Jian Shao Jinggang Yang Peng Yu Huanxu Chen Jianhua Zhou Jing Xiao Kangyong Yin Minjie Shi Peng Xiao
Energy & Environmental Materials2025,Vol.8Issue(3):P.244-252,9.
Energy & Environmental Materials2025,Vol.8Issue(3):P.244-252,9.DOI:10.1002/eem2.12852
Highly Efficient and Stable Capacitive Deionization Based on a Flower-Like Conjugated Polymer with Double Active-Sites
摘要
关键词
capacitive deionization/electro-adsorption/Na+removal/organic compound/pseudocapacitive electrode分类
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Zhiyun Zhuang,Lei Sun,Yueheng Tao,Jian Shao,Jinggang Yang,Peng Yu,Huanxu Chen,Jianhua Zhou,Jing Xiao,Kangyong Yin,Minjie Shi,Peng Xiao..Highly Efficient and Stable Capacitive Deionization Based on a Flower-Like Conjugated Polymer with Double Active-Sites[J].Energy & Environmental Materials,2025,8(3):P.244-252,9.基金项目
supported by the National Key R&D Program of China(Grant Nos.2023YFC3009900) (Grant Nos.2023YFC3009900)
National Natural Science Foundation of China(Grant Nos.61904116) (Grant Nos.61904116)
Natural Science Foundation of Jiangsu Province(Grant Nos.BK20211029) (Grant Nos.BK20211029)
the young scientific talent lifting project of Jiangsu Association for Science and Technology(Grant Nos.JSTJ-2023-018). (Grant Nos.JSTJ-2023-018)
