1·It could be hydrogen bonding.
可能是氢键作用。
2·And there's weak hydrogen bonding between them.
它们之间有,微弱的氢键。
3·It could be hydrogen bonding. Could be different.
它有可能是氢键,可能不同。
4·Because there's weak hydrogen bonding between the unlike species.
因为在不同种分子间,存在较弱的氢键。
5·There are strong hydrogen bonding interactions between inorganic and guest molecules.
无机骨架和客体分子间存在着强的氢键相互作用。
6·This bonding may be hydrogen bonding but is preferably a salt bond and especially a covalent bond.
这可能是结合氢键,但最好是盐的债券,特别是共价键。
7·Hydrogen bonding between water molecules occurs not only in liquid wa er but also in ice and in water vapor.
水分子间的氢键不仅存在于液态水中,也存在于冰和水蒸气中。
8·The extra stability was studied based on electronic effect, hydrophobic effect and hydrogen bonding of ligands.
从配体间的电子效应、疏水效应和氢键作用等方面对配合物的额外稳定性进行了讨论。
9·The improvement of shape memory properties further implied the existence of hydrogen bonding in nanocomposites.
基于实验数据,我们解释复合材料为什么有好的行状记忆特性;
10·Compound 4 is a 3d structure built from polyanion, sulfate ion, water molecules through hydrogen bonding interactions.
化合物4是由多酸阴离子、硫酸根离子、水分子通过氢键胶合在一起,形成3d结构。
1·Because there's weak hydrogen bonding between the unlike species.
因为在不同种分子间,存在较弱的氢键。
2·It could be hydrogen bonding.
可能是氢键作用。
3·It could be hydrogen bonding. Could be different.
它有可能是氢键,可能不同。
4·And there's weak hydrogen bonding between them.
它们之间有,微弱的氢键。
5·There are strong hydrogen bonding interactions between inorganic and guest molecules.
无机骨架和客体分子间存在着强的氢键相互作用。