Nanodroplets of Gallium-Based Liquid Metal(LM)have applications in stretchable electronics,electrochemical sensors,energy storage,hyperthermia,and rapid polymerization.The gallium oxide layer around LMNDs prevents agg...Nanodroplets of Gallium-Based Liquid Metal(LM)have applications in stretchable electronics,electrochemical sensors,energy storage,hyperthermia,and rapid polymerization.The gallium oxide layer around LMNDs prevents aggregation.However,LM nanodroplets(LMNDs)are neither mechanically nor chemically stable.The ultrathin oxide layer ruptures under slight pressure,hindering their use in stretchable electronics.The shell also dissolves in slightly acidic/alkaline solutions,making them unstable for energy storage and electrochemical sensing.We demonstrate the synthesis of a dry LM powder with an LM core and a reduced graphene oxide shell.Graphene oxide provides excellent mechanical and chemical stability and permits electrical conductivity.Its porous structure does not block ion exchange between the LM droplets and the environment,allowing LMNDs to be used in energy storage and electrochemical sensing.The resulting EGaIn powders benefit from higher surface and long-term stability,addressing LMND limitations.We report using GO@EGaIn nanocomposite as an anode for alkali-ion batteries in a novel Ag-EGaIn cell with impressive energy storage capacity.The combination of liquid deformability of LMNDs,higher surface area in the nano form,and the stability of GO@EGaIn dry powder expands the applications of liquid metals in electronics and energy storage.展开更多
基金supported by the European Research Council,ERC project Liquid3D,grant number 101045072Access to the TAIL-UC facility,funded under the QREN-Mais Centro project ICT_2009_02_012_1890,is gratefully acknowledged+1 种基金the Foundation for Science and Technology(FCT)for support provided through the Concurso Estímulo ao Emprego Científico Individual,6th edition(reference 2023.08684.CEECIND)Support came as well from the projects Future Packaging,“Embalagem do Futuro”,Supported by the Portuguese Recovery and Resilience Plan(PRR)and the Next Generation EU European Funds,Green Agenda for Industrial Sector project 59.
文摘Nanodroplets of Gallium-Based Liquid Metal(LM)have applications in stretchable electronics,electrochemical sensors,energy storage,hyperthermia,and rapid polymerization.The gallium oxide layer around LMNDs prevents aggregation.However,LM nanodroplets(LMNDs)are neither mechanically nor chemically stable.The ultrathin oxide layer ruptures under slight pressure,hindering their use in stretchable electronics.The shell also dissolves in slightly acidic/alkaline solutions,making them unstable for energy storage and electrochemical sensing.We demonstrate the synthesis of a dry LM powder with an LM core and a reduced graphene oxide shell.Graphene oxide provides excellent mechanical and chemical stability and permits electrical conductivity.Its porous structure does not block ion exchange between the LM droplets and the environment,allowing LMNDs to be used in energy storage and electrochemical sensing.The resulting EGaIn powders benefit from higher surface and long-term stability,addressing LMND limitations.We report using GO@EGaIn nanocomposite as an anode for alkali-ion batteries in a novel Ag-EGaIn cell with impressive energy storage capacity.The combination of liquid deformability of LMNDs,higher surface area in the nano form,and the stability of GO@EGaIn dry powder expands the applications of liquid metals in electronics and energy storage.
