Ionic polarization

Study of the Relation between Ionic Polarization and Bond Type

离子极化与键型关系的研究

Coordination bonding model of ionic polarization and its application

离子极化作用的配位键模型及其应用

Relation Between Ionic Polarization and the Hydration Heat of Ions

离子极化与离子水合热的关系

Ionic polarization and the stability constants of metal complexes of EDTA

离子极化和乙二胺四乙酸金属络合物的稳定常数

Ionic Polarization And Application

离子极化强度及其作用

Ionic Polarization and CASP Scale of Thermal Stability Law of Perchlorates

离子极化和高氯酸盐热稳定性规律的CASP标度

Ionic polarization and lattice energy of ionic crystals & theoretical calculation of polarization energy and the general equation of lattice energy for all types of ionic crystals

离子极化和离子晶体的晶格能&离子极化能的理论计算和适用于所有离子晶体的晶格能公式

The phenomena were discussed with the ionic polarization mechanism and the roles of the adsorbed water of the particles in the ER suspensions were elucidated .

并用离子极化机理对实验结果进行了解释，阐明了该体系中的水分在ER效应中的作用。

Doping of Ni / Co did not change the phase structure , but increased the dielectric loss capacity . The dielectric polarization process was ascribed to ionic polarization .

经过Ni掺杂、Co掺杂以及Ni/Co共掺杂后，产物的形貌、晶相变化不明显，但介电损耗强度增大，主要极化机理归因于离子极化。

The author expounds why concentrated sulfuric acid has oxidization by the view of ionic polarization and believes that dilute sulfuric acid had also oxidization , then analyses the different oxidization between concentrated and dilute sulfuric acid .

用离子极化的观点阐明浓硫酸具有强氧化性的原因，同时指出稀硫酸亦具有氧化性，在此基础上，分析了浓稀硫酸氧化性的不同。

Theoretic study on leather ionic displacement polarization

皮革材料离子位移极化理论的研究

The small current of the slow pulse could efficiently decrease the ionic concentration polarization and increase the charging efficiency .

慢脉冲中的小电流有效地控制了离子浓差极化，提高了充电效率。

Further discussions on the phenomena due to the ionic migration polarization in α - liio_3

对α-LiIO3的离子迁移极化现象的进一步讨论

Also , the ionic mobility and polarization of the ions in waste water passing through an ion exchange membrane are studied .

对废水中离子通过离子交换膜的极化现象和迁移性也做了研究。

Combining with effective TPB resistivity and ionic resistivity , electrode polarization resistance can be estimated .

结合TPB和氧离子有效电阻率可以进一步计算极化阻抗。

The color of compound is determined by internal structure of compound whose molecule , ionic absorption , reflection , radiation , and visible light cause electronic transition , which generates color , in the meanwhile , is influenced by ionic polarization and coordinative substance .

无机化合物的颜色是由化合物的内部结构决定的，化合物的分子、离子吸收、反射、辐射可见光引起电子跃迁产生物质的颜色，物质的颜色同时受离子极化和配位体的影响。