电池
電池
전지
BATTERY BIMONTHLY
2010年
1期
54-56
,共3页
姜冬冬%秋沉沉%付延鲍%马晓华
薑鼕鼕%鞦沉沉%付延鮑%馬曉華
강동동%추침침%부연포%마효화
三维锂离子微电池%微电子机械系统(MEMS)%硅铸模法
三維鋰離子微電池%微電子機械繫統(MEMS)%硅鑄模法
삼유리리자미전지%미전자궤계계통(MEMS)%규주모법
three-dimensional Li-ion micro battery%micro electronic and mechanical systems(MEMS)%Si-mold fabrication
三维锂离子微电池通过利用空间高度获得了高的面积比能量,同时保持了高的功率密度.总结了三维锂离子微电池的结构及优点,概述了碳(C)-微电子机械系统(MEMS)及硅铸膜两种制备方法.
三維鋰離子微電池通過利用空間高度穫得瞭高的麵積比能量,同時保持瞭高的功率密度.總結瞭三維鋰離子微電池的結構及優點,概述瞭碳(C)-微電子機械繫統(MEMS)及硅鑄膜兩種製備方法.
삼유리리자미전지통과이용공간고도획득료고적면적비능량,동시보지료고적공솔밀도.총결료삼유리리자미전지적결구급우점,개술료탄(C)-미전자궤계계통(MEMS)급규주막량충제비방법.
Three-dimensional Li-ion micro battery provided high energy per unit area and maintained high power density through making good use of thickness. The structure of three-dimensional Li-ion micro battery and its advantages were summarized. Two preparing methods such as carbon(C)-micro electronic and mechanical systems(MEMS)and Si-mold fabrication were summarized.