A nanosecond pulse laser source head(Nd:YAG laser,Inlite Ⅱ-20,Continuum)was equipped to a high-voltage electron microscope(HVEM,Hitachi,H-1300)to develop a laser-HVEM system at Hokkaido University.Using the laser-HVE...A nanosecond pulse laser source head(Nd:YAG laser,Inlite Ⅱ-20,Continuum)was equipped to a high-voltage electron microscope(HVEM,Hitachi,H-1300)to develop a laser-HVEM system at Hokkaido University.Using the laser-HVEM,new methods for in-situ observation on the formation process of laser-induced lattice point defects at the internal of crystalline solid are achieved;some striking phenomena and potential mechanisms are explored.In the present paper,we review our progresses on in-situ experiments of lattice defects behavior in metal using the laser-HVEM.These progresses are expected to provide insight for a broader application of laser-HVEM in scientific research.展开更多
The design of flexible composite electrodes has become the top priority in energy storage devices for the development of future wearable intelligent electronics.However,searching for fully integrated,ultrathin flexibl...The design of flexible composite electrodes has become the top priority in energy storage devices for the development of future wearable intelligent electronics.However,searching for fully integrated,ultrathin flexible composite electrodes with satisfying electrochemical performance is still a major challenge.Herein,we introduce a nanoporous gold metallic glass(MG) ribbon-based composite electrode with excellent electric conductivity,mechanical flexibility,and extra capacitance by integrating polypyrrole(PPy) into wrinkled nanoporous ribbon(NPG@MG).The freestanding,ultrathin,highly conductive and flexible" nature of the composite electrode prevents the conducting polymer from structural instability resulting from the volume swell and shrink during the charging/discharging circulation,and the packed PPy provides protection for the wrinkled topology on the surface of the MG ribbon.The capacitance of pure NPG@MG-PPy composite electrode reached 393 mF·cm^(-2).The ultra-thin all-solid-state flexible supercapacitor demonstrates an excellent capacitance of 172 mF·cM^(-2)(14.8 F·cm^(-3)),accompanied by a superior cycling capability after 8000 charge/discharge cycles attributed to mechanical flexibility.The areal energy density also reached 0.74 mWh·cm^(-3)(9μWh·cm^(-2)) at a power density of 1 μW·cm^(-2).This work provides valuable concepts on the design of PPy-based hybrid materials for flexible energy storage systems with greatly enhanced electrochemical performances.展开更多
基金supported by the National Natural Science Foundation of China(No.51471027)。
文摘A nanosecond pulse laser source head(Nd:YAG laser,Inlite Ⅱ-20,Continuum)was equipped to a high-voltage electron microscope(HVEM,Hitachi,H-1300)to develop a laser-HVEM system at Hokkaido University.Using the laser-HVEM,new methods for in-situ observation on the formation process of laser-induced lattice point defects at the internal of crystalline solid are achieved;some striking phenomena and potential mechanisms are explored.In the present paper,we review our progresses on in-situ experiments of lattice defects behavior in metal using the laser-HVEM.These progresses are expected to provide insight for a broader application of laser-HVEM in scientific research.
基金financially supported by the National Natural Science Foundation of China (Nos.21905180 and 51873108)Shenzhen Science and Technology Planning Project (Nos. JCYJ20200109141640095 and JCYJ20170817110251498)Guangdong-Hong Kong-Macao Joint Laboratory (No. 2019B121205001)。
文摘The design of flexible composite electrodes has become the top priority in energy storage devices for the development of future wearable intelligent electronics.However,searching for fully integrated,ultrathin flexible composite electrodes with satisfying electrochemical performance is still a major challenge.Herein,we introduce a nanoporous gold metallic glass(MG) ribbon-based composite electrode with excellent electric conductivity,mechanical flexibility,and extra capacitance by integrating polypyrrole(PPy) into wrinkled nanoporous ribbon(NPG@MG).The freestanding,ultrathin,highly conductive and flexible" nature of the composite electrode prevents the conducting polymer from structural instability resulting from the volume swell and shrink during the charging/discharging circulation,and the packed PPy provides protection for the wrinkled topology on the surface of the MG ribbon.The capacitance of pure NPG@MG-PPy composite electrode reached 393 mF·cm^(-2).The ultra-thin all-solid-state flexible supercapacitor demonstrates an excellent capacitance of 172 mF·cM^(-2)(14.8 F·cm^(-3)),accompanied by a superior cycling capability after 8000 charge/discharge cycles attributed to mechanical flexibility.The areal energy density also reached 0.74 mWh·cm^(-3)(9μWh·cm^(-2)) at a power density of 1 μW·cm^(-2).This work provides valuable concepts on the design of PPy-based hybrid materials for flexible energy storage systems with greatly enhanced electrochemical performances.
