Aqueous zinc-iodine(Zn-I_(2))batteries show great potential as energy storage candidates due to their high-safety and low-cost,but confronts hydrogen evolution reaction(HER)and dendrite growth at anode side and polyio...Aqueous zinc-iodine(Zn-I_(2))batteries show great potential as energy storage candidates due to their high-safety and low-cost,but confronts hydrogen evolution reaction(HER)and dendrite growth at anode side and polyiodide shuttling at cathode side.Herein,"tennis racket"(TR)hydrogel electrolytes were prepared by the co-polymerization and co-blending of polyacrylamide(PAM),sodium lignosulfonate(SL),and sodium alginate(SA)to synchronously regulate cathode and anode of Zn-I_(2)batteries."Gridline structure"of TR can induce the uniform transportation of Zn^(2+)ions through the coordination effect to hinder HER and dendrite growth at anode side,as well as hit I_(3)^(-)ions as"tennis"via the strong repulsion force to avoid shuttle effect at cathode side.The synergistic effect of TR electrolyte endows Zn-Zn symmetric battery with high cycling stability over 4500 h and Zn-I_(2)cell with the stably cycling life of 15000 cycles at5 A g^(-1),outperforming the reported works.The practicability of TR electrolyte is verified by flexible Zn-I_(2)pouch battery.This work opens a route to synchronously regulate cathode and anode to enhance the electrochemical performance of Zn-I_(2)batteries.展开更多
Solid state lithium metal batteries(SSLMBs)are considered to be one of the most promising battery systems for achieving high energy density and excellent safety for energy storage in the future.However,current existed...Solid state lithium metal batteries(SSLMBs)are considered to be one of the most promising battery systems for achieving high energy density and excellent safety for energy storage in the future.However,current existed solid-state electrolytes(SSEs)are still difficult to meet the practical application requirements of SSLMBs.In this review,based on the analysis of main problems and challenges faced by the development of SSEs,the ingenious application and latest progresses including specific suggestions of various polymer fibers and their membrane products in solving these issues are emphatically reviewed.Firstly,the inherent defects of inorganic and organic electrolytes are pointed out.Then,the application strategies of polymer fibers/fiber membranes in strengthening strength,reducing thickness,enhancing thermal stability,increasing the film formability,improving ion conductivity and optimizing interface stability are discussed in detail from two aspects of improving physical structure properties and electrochemical performances.Finally,the researches and development trends of the intelligent applications of high-performance polymer fibers in SSEs is prospected.This review intends to provide timely and important guidance for the design and development of polymer fiber composite SSEs for SSLMBs.展开更多
基金financially supported by the Energy Revolution S&T Program of Yulin Innovation Institute of Clean Energy(E411060316)the NSFC-CONICFT Joint Project(51961125207)+1 种基金the Special Fund(2024)of Basic Scientific Research Project at Undergraduate University in Liaoning Province(LJ212410152056)the Foundation(GZKF202301)of State Key Laboratory of Biobased Material and Green Papermaking,Qilu University of Technology,Shandong Academy of Sciences。
文摘Aqueous zinc-iodine(Zn-I_(2))batteries show great potential as energy storage candidates due to their high-safety and low-cost,but confronts hydrogen evolution reaction(HER)and dendrite growth at anode side and polyiodide shuttling at cathode side.Herein,"tennis racket"(TR)hydrogel electrolytes were prepared by the co-polymerization and co-blending of polyacrylamide(PAM),sodium lignosulfonate(SL),and sodium alginate(SA)to synchronously regulate cathode and anode of Zn-I_(2)batteries."Gridline structure"of TR can induce the uniform transportation of Zn^(2+)ions through the coordination effect to hinder HER and dendrite growth at anode side,as well as hit I_(3)^(-)ions as"tennis"via the strong repulsion force to avoid shuttle effect at cathode side.The synergistic effect of TR electrolyte endows Zn-Zn symmetric battery with high cycling stability over 4500 h and Zn-I_(2)cell with the stably cycling life of 15000 cycles at5 A g^(-1),outperforming the reported works.The practicability of TR electrolyte is verified by flexible Zn-I_(2)pouch battery.This work opens a route to synchronously regulate cathode and anode to enhance the electrochemical performance of Zn-I_(2)batteries.
基金supported by the National Natural Science Foundation of China(52203066,51973157,61904123)Tianjin Natural Science Foundation(18JCQNJC02900)+3 种基金Tianjin Research Innovation Project for Postgraduate Students(2021YJSB234)Science and Technology Plans of Tianjin(19PTSYJC00010)Science&Technology Development Fund of Tianjin Education Commission for Higher Education(Grant No.2018KJ196)State Key Laboratory of Membrane and Membrane Separation,Tiangong University。
文摘Solid state lithium metal batteries(SSLMBs)are considered to be one of the most promising battery systems for achieving high energy density and excellent safety for energy storage in the future.However,current existed solid-state electrolytes(SSEs)are still difficult to meet the practical application requirements of SSLMBs.In this review,based on the analysis of main problems and challenges faced by the development of SSEs,the ingenious application and latest progresses including specific suggestions of various polymer fibers and their membrane products in solving these issues are emphatically reviewed.Firstly,the inherent defects of inorganic and organic electrolytes are pointed out.Then,the application strategies of polymer fibers/fiber membranes in strengthening strength,reducing thickness,enhancing thermal stability,increasing the film formability,improving ion conductivity and optimizing interface stability are discussed in detail from two aspects of improving physical structure properties and electrochemical performances.Finally,the researches and development trends of the intelligent applications of high-performance polymer fibers in SSEs is prospected.This review intends to provide timely and important guidance for the design and development of polymer fiber composite SSEs for SSLMBs.
