这种独特的溶胀行为似乎与高价离子电荷的正负性有关。
The unique behavior seems to be related to the charge characteristics of multivalent ions.
根据元素周期表,选择了离子电荷、半径和电子层结构不同的16种金属离子进行研究。
According to the periodic table, we selected 16 kinds of metal ions with different ionic charge, radius and electron shell structure in research.
这些机制是离子电荷的内部位移、电子电荷的内部位移和由于应变引起的离子性的变化。
These mechanisms are the internal displacement of the ionic charge, the internal displacement of the electronic charge and the charge in ionicity due to strain.
So we could think about comparing the potassium ion to a sodium ion. They have the same charge of plus one.
我们可以想象比较一下钾离子,与钠离子,它们都同样带有正一价的电荷。
So, if we think about the second case here where we have c n minus, now we're talking about a molecule with a net charge of negative 1.
那么,如果我们考虑的是第二个例子,也就是氰离子,那么现在我们讨论的是一个净电荷量为负一的分子。
These gas ions, if you take gas ions, these gas ions, if you take gas ions, gas ions of opposite charge will necessarily agglomerate without limit.
这些气态离子,如果你得到气态离子的话,如果你得到这些气态离子,具有相反电荷的气态离子,将必然会无限地聚集。
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