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首页|期刊导航|纳微快报(英文)|Progress on Transition Metal Ions Dissolution Suppression Strategies in Prussian Blue Analogs for Aqueous Sodium-/Potassium-Ion Batteries

Progress on Transition Metal Ions Dissolution Suppression Strategies in Prussian Blue Analogs for Aqueous Sodium-/Potassium-Ion BatteriesOACSTPCDEI

Progress on Transition Metal Ions Dissolution Suppression Strategies in Prussian Blue Analogs for Aqueous Sodium-/Potassium-Ion Batteries

英文摘要

Aqueous sodium-ion batteries(ASIBs)and aqueous potassium-ion batteries(APIBs)present significant potential for large-scale energy storage due to their cost-effectiveness,safety,and environmental compatibility.Nonetheless,the intricate energy storage mechanisms in aqueous electrolytes place stringent require-ments on the host materials.Prussian blue analogs(PBAs),with their open three-dimensional framework and facile synthesis,stand out as leading candidates for aqueous energy storage.However,PBAs possess a swift capacity fade and limited cycle longevity,for their structural integrity is compromised by the pronounced dis-solution of transition metal(TM)ions in the aqueous milieu.This manuscript provides an exhaustive review of the recent advancements concerning PBAs in ASIBs and APIBs.The dissolution mechanisms of TM ions in PBAs,informed by their structural attributes and redox processes,are thoroughly examined.Moreover,this study delves into innovative design tactics to alleviate the dissolution issue of TM ions.In conclusion,the paper consolidates various strategies for suppressing the dissolution of TM ions in PBAs and posits avenues for prospective exploration of high-safety aqueous sodium-/potassium-ion batteries.

Wenli Shu;Junxian Li;Guangwan Zhang;Jiashen Meng;Xuanpeng Wang;Liqiang Mai

Department of Physical Science and Technology,School of Science,Wuhan University of Technology,Wuhan 430070,People's Republic of China||School of Materials Science and Engineering,State Key Laboratory of Advanced Technology for Materials Synthesis,Wuhan University of Technology,Wuhan 430070,People's Republic of China||Sanya Science and Education Innovation Park,Wuhan University of Technology,Sanya 572000,People's Republic of ChinaSchool of Materials Science and Engineering,State Key Laboratory of Advanced Technology for Materials Synthesis,Wuhan University of Technology,Wuhan 430070,People's Republic of China||Sanya Science and Education Innovation Park,Wuhan University of Technology,Sanya 572000,People's Republic of ChinaSchool of Materials Science and Engineering,State Key Laboratory of Advanced Technology for Materials Synthesis,Wuhan University of Technology,Wuhan 430070,People's Republic of ChinaDepartment of Physical Science and Technology,School of Science,Wuhan University of Technology,Wuhan 430070,People's Republic of China||Sanya Science and Education Innovation Park,Wuhan University of Technology,Sanya 572000,People's Republic of China||Hubei Longzhong Laboratory,Wuhan University of Technology,Xiangyang Demonstration Zone,Xiangyang 441000,People's Republic of ChinaSchool of Materials Science and Engineering,State Key Laboratory of Advanced Technology for Materials Synthesis,Wuhan University of Technology,Wuhan 430070,People's Republic of China||Sanya Science and Education Innovation Park,Wuhan University of Technology,Sanya 572000,People's Republic of China||Hubei Longzhong Laboratory,Wuhan University of Technology,Xiangyang Demonstration Zone,Xiangyang 441000,People's Republic of China

Prussian blue analogsTransition metal ions dissolutionSuppression strategiesAqueous sodium-ion batteriesAqueous potassium-ion batteries

《纳微快报(英文)》 2024 (007)

142-168 / 27

This work was supported by the National Natural Science Foundation of China(52373306,52172233,and 51832004),the Natural Science Foundation of Hubei Province(2023AFA053),and the Hainan Provincial Joint Project of Sanya Yazhou Bay Science and Technology City(2021CXLH0007).

10.1007/s40820-024-01355-y

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