1.
Standard ELectric Potential of Metals、Ionization Energy And Activity order of Metals;
金属标准电极电位、电离势和活动顺序
2.
zeta - potential Z
电位;Z电势(胶体溶液中带电离子的双电层产生的电)
3.
Time-dependent Study of Multi-photon Ionization for NaK Molecules in a Double-well Potential;
双势阱中NaK分子多光子电离的含时理论研究
4.
A study of Rydberg energy levels of GaⅡ ions in the weakest bound electron potential model;
最弱受约束电子势模型下GaⅡ离子Rydberg态能级研究
5.
The actual state of research and trend of anodic material LiFePO_4 of Li-ion battery
锂离子电池正极材料LiFePO_4的研究现状及趋势
6.
Measure ment of Average Activity Coefficient of Ion and Standard Electrode Potential with the EMF Method
电动势法测量离子平均活度系数和标准电极电位
7.
Ionization potential (ionization energy): Amount of energy required to remove an electron from an isolated atom or molecule.
电离电势(亦称电离能):从孤立原子或分子中移去一个电子所需要的能量。
8.
Let us now look at the ionization potentials for the next few atoms.
现在再来看一下后来少数几种原子的电离电势值。
9.
Updated research and development status of Li-ion batteries--Report on the 215th Electrochemical Society Meeting
锂离子电池研究与发展的最新态势——第215届电化学会议评述
10.
It is same as a lithium ion secondary battery in principle, but has more advantages than a lithium ion rechargeable battery has.
它的原理与锂离子二次电池的相同;但在某些方面比锂离子二次电池更具优势。
11.
Having equal electric potential.
同电势有相同的电势的
12.
thermoelectric force
热电势, 温差电(动)势
13.
The ions trapped by beam potential well can cause beam instability in e lectron storage rings.
在电子储存环中,由于被束流势阱俘获的离子会引起束流不稳定性。
14.
The magnitude of the interface potentials depends on the interchange of electrons or ions,and follows the Nernst equation.
界面势的大小决定于电子或离子间的交换,服从能斯特方程。
15.
Multiply Management Enterprise of Electric Power: Research of the Development Strategies Against the Background of Separate Secondary Lines of Business from Core Business;
电力系统“主辅分离”趋势下的多种经营企业发展战略研究
16.
Calculation of Potential Energy Curves of S_2~+ Molecular Ion and the Assignment of S_2 Photoelectronic Spectra;
S_2~+分子离子的势能曲线计算与S_2分子光电谱的指认
17.
Theoretical Studies on Off-center Negatively Charge Donor Quantum Dot Confined by Parabolic Potential
抛物势下脱离中心带负电荷的施主量子点的理论研究
18.
The Research of the Deposition of the Highly Charged Ions on the Solid Surface and the Kinetic Energy of the Ions Sputtering from the Solid Surface
高电荷态离子在固体表面的势能沉积及其溅射出的粒子能量研究