1.
High Capacity Silicon-Containing Anode Materials for Lithium-ion Batteries;
锂离子电池用高容量含硅负极材料研究
2.
Electrochemical Studies of Silicon and Silicon-carbon Film Electrodes Prepared in Lithium Ion Batteries;
锂离子电池硅及硅/碳负极薄膜制备及电化学性能研究
3.
High Capacity Si-based Film Anode for Lithium Ion Batteries;
锂离子电池高容量硅基薄膜负极材料的研究
4.
Study of Electrochemical Performance of Silicon-based Negative Electrode Materials for Lithium-ion Batteries
锂离子电池硅基负极材料的电化学性能研究
5.
Research Progress in Si/C Composites as Anodes for Lithium-ion Batteries
锂离子电池硅/碳复合负极材料的研究进展
6.
Investigation of Si film anode prepared by ion beam assisted deposition
离子束辅助沉积硅薄膜负极材料的研究
7.
Improvement progress of the Si-based materials for lithium-ion batteries
锂离子电池硅基负极材料改性研究进展
8.
Synthesis and Electrochemical Studies on High Capacity Si/C Composite Anodes for Lithium-ion Batteries;
二次锂电池中高容量硅/碳复合负极材料的合成及电化学研究
9.
Preparation and Electrochemical Performances of Si-based Nanocomposite Films as Anode Materials for Lithium-ion Batteries;
锂离子电池硅基纳米复合薄膜负极材料的制备、结构和电化学性能
10.
Cycleability of Silicon/Carbon Composite for Lithium-Ion Batteries
锂离子电池负极硅/碳复合材料循环稳定性的研究
11.
Containing or producing the type of electric charge carried by electrons
(电)阴极的,负极的
12.
The investigated anode materials include modified carbons,nitrides ,silicides ,oxides and novel alloys.
研究的负极材料主要有:改性碳材料、氮化物、硅化物、氧化物和新型合金。
13.
If the strain exceeds the tolerable limit, the Si-O-Si linkage can break easily at high temperature and lead to the creation of positive and negative charges on silicon and oxygen atoms, respectively.
如果张力超过耐受极限, 硅氧烷鍵就很易在高温下发生断裂并在硅和氧原子上分别形成正负电荷。
14.
the positive/negative terminals,eg of a battery
正[负]极(如电池的).
15.
positive-intrinsic-negative diode
“正-本征-负”二极管
16.
PIN (Positive-Intrinsic-Negative)
正-本征-负(二极管)
17.
silicon large power switch triode
硅大功率开关三极管
18.
ESVAC (Epitaxial Silicon Variable Capacitance Diode)
外延硅可变电容二极管