Hydrogen evolution reaction(HER),zinc corrosion,and dendrites growth on zinc metal anode are the major issues limiting the practical applications of zinc-ion batteries.Herein,an in-situ physical/chemical cross-linked ...Hydrogen evolution reaction(HER),zinc corrosion,and dendrites growth on zinc metal anode are the major issues limiting the practical applications of zinc-ion batteries.Herein,an in-situ physical/chemical cross-linked hydrogel electrolyte(carrageenan/polyacrylamide/ZnSO_(4),denoted as CPZ)has been developed to stabilize the zinc anode-electrolyte interface,which can eliminate side reactions and prevent dendrites growth.The in-situ CPZ hydrogel electrolyte improves the reversibility of zinc anode due to eliminating side reactions caused by active water molecules.Furthermore,the electrostatic interaction between the SO_(4)^(-)groups in CPZ and Zn^(2+)can encourage the preferential deposition of zinc atoms on(002)crystal plane,which achieve dendrite-free and homogeneous zinc deposition.The in-situ hydrogel electrolyte offers a streamlined approach to battery manufacturing by allowing for direct integration into the battery.Subsequently,the Zn//Zn half battery with CPZ hydrogel electrolyte can enable an ultra-long cycle over 5500 h at a current density of 0.5 mA cm^(-2),and the Zn//Cu half battery reach an average coulombic efficiency of 99.37%.The Zn//V_(2)O_5-GO full battery with CPZ hydrogel electrolyte demonstrates94.5%of capacity retention after 2100 cycles.This study is expected to open new thought for the development of commercial hydrogel electrolytes for low-cost and long-life zinc-ion batteries.展开更多
The isothermal corrosion testing, microscopic examination and the performance of Fe3Si alloy as materials of construction for bath hardware in continuous hot-dipping lines were studied. The corrosion of Fe3Si alloy in...The isothermal corrosion testing, microscopic examination and the performance of Fe3Si alloy as materials of construction for bath hardware in continuous hot-dipping lines were studied. The corrosion of Fe3Si alloy in molten zinc was controlled by attacking the grain boundaries preferentially. Aluminum reacted with iron of Fe3Si alloy firstly while the samples were immersed in molten zinc, although aluminum contents in the molten zinc were very low. The phase of reaction product was thought to be Fe2Al5. The corrosion rate of the Fe3Si alloy in molten zinc was determined to be approximately 2.9×10^-3 mm/h, therefore the liquid zinc corrosion resistance of Fe3Si alloy was very weak.展开更多
Rechargeable aqueous zinc-ion batteries(ZIBs) featuring the merits of low cost,eco-friendliness,and enhanced safety have attracted extensive interests and considered as the most promising energy storage system.However...Rechargeable aqueous zinc-ion batteries(ZIBs) featuring the merits of low cost,eco-friendliness,and enhanced safety have attracted extensive interests and considered as the most promising energy storage system.However,much efforts are devoted to the exploration of cathode materials and their storage mechanisms in this system,and inadequate attentions are received in regard to anode side especially in neutral or mild acidic electrolyte.Therefore,in this review,the fundamental understanding of existing issues including dendrite formation,corrosion,and hydrogen evolution are mainly revealed,as well as their interaction in neutral or mild acidic medium.In addition,the currently existing solution strategies on the anode are summarized and the mechanisms that contained are simultaneously investigated.Finally,perspectives on future anode modification and innovation direction are provided for the further development and research of Zn-based ZIBs.展开更多
The properties of Al/conductive coating/α-PbO2-CeO2-TiO2/β-PbO2-WC-ZrO2 composite anode for zinc electrowinning were investigated. The electrochemical performance was studied by Tafel polarization curves(Tafel), e...The properties of Al/conductive coating/α-PbO2-CeO2-TiO2/β-PbO2-WC-ZrO2 composite anode for zinc electrowinning were investigated. The electrochemical performance was studied by Tafel polarization curves(Tafel), electrochemical impedance spectroscopy(EIS) and corrosion rate obtained in an acidic zinc sulfate electrolyte solution. Scanning electron microscopy(SEM), X-ray diffraction(XRD), and energy dispersive X-ray spectroscopy(EDXS) were used to observe the microstructural features of coating. Anodes of Al/conductive coating/α-PbO2-CeO2-TiO2/β-PbO2, Al/conductive coating/α-PbO2-CeO2-TiO2/β-PbO2-WC, Al/conductive coating/α-PbO2-CeO2-TiO2/β-PbO2-ZrO2, and Pb-1%Ag anodes were also researched. The results indicated that the Al/conductive coating/α-PbO2-CeO2-TiO2/β-PbO2-WC-ZrO2 showed the best catalytic activity and corrosion resistant performance; the intensity of diffraction peak exhibited the highest value as well as a new PbWO4 phase; the content of WC and ZrO2 in coating showed the highest value as well as the finest grain size.展开更多
基金supported by the Key Program of Natural Science Foundation of Gansu Province (23JRRA789)the Major Science and Technology Project of Gansu Province (22ZD6GA008)。
文摘Hydrogen evolution reaction(HER),zinc corrosion,and dendrites growth on zinc metal anode are the major issues limiting the practical applications of zinc-ion batteries.Herein,an in-situ physical/chemical cross-linked hydrogel electrolyte(carrageenan/polyacrylamide/ZnSO_(4),denoted as CPZ)has been developed to stabilize the zinc anode-electrolyte interface,which can eliminate side reactions and prevent dendrites growth.The in-situ CPZ hydrogel electrolyte improves the reversibility of zinc anode due to eliminating side reactions caused by active water molecules.Furthermore,the electrostatic interaction between the SO_(4)^(-)groups in CPZ and Zn^(2+)can encourage the preferential deposition of zinc atoms on(002)crystal plane,which achieve dendrite-free and homogeneous zinc deposition.The in-situ hydrogel electrolyte offers a streamlined approach to battery manufacturing by allowing for direct integration into the battery.Subsequently,the Zn//Zn half battery with CPZ hydrogel electrolyte can enable an ultra-long cycle over 5500 h at a current density of 0.5 mA cm^(-2),and the Zn//Cu half battery reach an average coulombic efficiency of 99.37%.The Zn//V_(2)O_5-GO full battery with CPZ hydrogel electrolyte demonstrates94.5%of capacity retention after 2100 cycles.This study is expected to open new thought for the development of commercial hydrogel electrolytes for low-cost and long-life zinc-ion batteries.
基金This work was financially supported by the National Natural Science Foundation of China (No.50274005).
文摘The isothermal corrosion testing, microscopic examination and the performance of Fe3Si alloy as materials of construction for bath hardware in continuous hot-dipping lines were studied. The corrosion of Fe3Si alloy in molten zinc was controlled by attacking the grain boundaries preferentially. Aluminum reacted with iron of Fe3Si alloy firstly while the samples were immersed in molten zinc, although aluminum contents in the molten zinc were very low. The phase of reaction product was thought to be Fe2Al5. The corrosion rate of the Fe3Si alloy in molten zinc was determined to be approximately 2.9×10^-3 mm/h, therefore the liquid zinc corrosion resistance of Fe3Si alloy was very weak.
基金supported by National Natural Science Foundation of China(Grants 51972346,51802356,51932011,and 51872334)Innovation-Driven Project of Central South University(2020CX024)
文摘Rechargeable aqueous zinc-ion batteries(ZIBs) featuring the merits of low cost,eco-friendliness,and enhanced safety have attracted extensive interests and considered as the most promising energy storage system.However,much efforts are devoted to the exploration of cathode materials and their storage mechanisms in this system,and inadequate attentions are received in regard to anode side especially in neutral or mild acidic electrolyte.Therefore,in this review,the fundamental understanding of existing issues including dendrite formation,corrosion,and hydrogen evolution are mainly revealed,as well as their interaction in neutral or mild acidic medium.In addition,the currently existing solution strategies on the anode are summarized and the mechanisms that contained are simultaneously investigated.Finally,perspectives on future anode modification and innovation direction are provided for the further development and research of Zn-based ZIBs.
基金Funded by the National Natural Science Foundation of China(Nos.51564029,51504111,51504231,51364019)the Key Project of Yunnan Province Applied Basic Research Plan of China(No.2014FA024)
文摘The properties of Al/conductive coating/α-PbO2-CeO2-TiO2/β-PbO2-WC-ZrO2 composite anode for zinc electrowinning were investigated. The electrochemical performance was studied by Tafel polarization curves(Tafel), electrochemical impedance spectroscopy(EIS) and corrosion rate obtained in an acidic zinc sulfate electrolyte solution. Scanning electron microscopy(SEM), X-ray diffraction(XRD), and energy dispersive X-ray spectroscopy(EDXS) were used to observe the microstructural features of coating. Anodes of Al/conductive coating/α-PbO2-CeO2-TiO2/β-PbO2, Al/conductive coating/α-PbO2-CeO2-TiO2/β-PbO2-WC, Al/conductive coating/α-PbO2-CeO2-TiO2/β-PbO2-ZrO2, and Pb-1%Ag anodes were also researched. The results indicated that the Al/conductive coating/α-PbO2-CeO2-TiO2/β-PbO2-WC-ZrO2 showed the best catalytic activity and corrosion resistant performance; the intensity of diffraction peak exhibited the highest value as well as a new PbWO4 phase; the content of WC and ZrO2 in coating showed the highest value as well as the finest grain size.
