水合离子

Structures of Na~+-AD ion-complexes with 1 or 2 H2O molecules were obtained. It was found that H2O can bond with Na~+ in the structure of Na~+-AD to form Na-O van der Waals bond. H2O molecule can also bond with N or O atoms in AD moiety to form H-bonds as N-H…Ow or O…Hw-Ow. The former process takes place more easily. The most stable structures of Na~+-AD ion-complexes with 1 and 2 H2O molecules are W-C7AB and 2W-C7AB, respectively.αB conformer of Na~+-AD can not exist in the presence of 2 H2O molecules.

研究发现水分子可以结合在Na~+-AD络合离子中的Na~+附近形成Na-OW范德华键，也可以与Na~+-AD络合离子骨架结构中电负性较强的N或O原子结合形成N-H…OW或O…HW-OW氢键，相对而言，水分子更容易结合在Na~+-AD络合离子中的Na~+位置，Na~+-AD最稳定的带1个或2个水分子的结构分别为W-C7AB和2W-C7AB，Na~+-AD络合离子的αB构象在2分子水存在的情况下完全消失。

The properties of most acids, especially in water solutions, arise from the hydrogen ion (H+, also referred to as the hydronium ion, H3O+, the form in which H+ is found in a water environment).

大多数酸尤其是在水溶液中的酸，其各种性质都是因存在氢离子(H+，亦可产生水合氢离子H3O+，因此任何水的环境都可发现氢离子)而产生的。

The properties of most acids, especially in water solut ion s, arise from the hydrogen ion (H+, also referred to as the hydronium ion , H3O+, the form in which H+ is found in a water environment).

大多数酸尤其是在水溶液中的酸，其各种性质都是因存在氢离子(H+，亦可产生水合氢离子H3O+，因此任何水的环境都可发现氢离子)而产生的。

The properties of most acids, especially in water solut ions , arise from the hydrogen ion (H+, also referred to as the hydronium ion, H3O+, the form in which H+ is found in a water environment).

大多数酸尤其是在水溶液中的酸，其各种性质都是因存在氢离子(H+，亦可产生水合氢离子H3O+，因此任何水的环境都可发现氢离子)而产生的。

The charge distribution of H3O＋(H2O)6VIa has also been analyzed, indicating that the strength of H-bonds of the first solvation shell with the hydronium ion is stronger than that with the second solvation shell.

对H3O＋(H2O)6VIa团簇的ABEEM电荷分布进行分析，表明第一水合层水分子与水合氢离子之间的氢键相互作用要明显强于与第二水层水分子的氢键相互作用。

Go into discovers , air is hit by a positive ion to be mineral ion , nitrogen ion etc. much, the anion is oxygen ion and aquation OH group ion etc.

研究发现，空气中正离子多为矿物离子、氮离子等，负离子多为氧离子和水合羟基离子等。

X6 3?,large specific surface area and adsorbent capacity However,most molecules and hydrated ions can not enter the aperture pass because of their size over the aperture diameter of palygorslote except less simple ones Furthermore,Palygorskite adsorbs water molecule choosingly In most cases the absorbing of palygorskite is by its outside surface that works in the form of colloid and ion exchange other than i...

但是由于凹凸棒石孔道直径小于大多数分子及水合离子的直径，除少数简单分子和离子外，多数分子和离子都不能进入凹凸棒石孔道，而且凹凸棒石选择性吸附水分子，因而在多数情况下，凹凸棒石对吸附质的吸附不是内表面吸附，而是外表面吸附。并且外表面吸附是胶体和离子交换吸附。本文阐述了凹凸棒石的孔道直径、吸附选择性、体系pH 值及凹凸棒石和蒙脱石胶体颗粒的互相作用对凹凸棒石吸附性能应用的制约。

E., monodentate,bidentate and complicated multidentate chain-structured or web-structured CIPs.

利用曲线拟合技术对其光谱的ν1-SO峰进行分峰，获得了不同湿度下ZnSO4微液滴中各组分的量化信息：高湿度时，液滴中主要包含自由的水合SO；随着湿度降低，自由SO逐渐向单齿、双齿接触离子对转化，并在湿度为66%和34%时分别达到其最大值；继续降低湿度，复杂的链状或网状接触离子对逐渐成为液滴中的主要成分。

It can be assumed that, the Mg~(2+) ions remain as hydrated ion forms when adsorbed onto micellar surface because of its strong hydration effect, so it can not neutralize the micellar surface charge effectively, make it destabilized and flocculated, neither can it form low-solubility salt with SDS as in SDS-CaCl_2 system.

认为是由于Mg~(2+)离子的水合作用比较强，导致其以水合离子的形式在胶束表面吸附，未能有效地接近并中和胶束表面电荷，也未能像Ca~(2+)那样，与SDS形成难溶盐而结晶沉淀。

Spherical composite inorganic ion-exchanger s,hydrated titanium dioxide-hydrated antimony pentoxide,were prepared using sol-gel method and their ion exchange properties for Sr 2+and Cs + as well as their composition,structure and stability were investigated in this paper.

用溶胶 凝胶的方法制备了水合二氧化钛水合五氧化二锑球形复合无机离子交换剂，研究了其对Sr2 +和Cs+的离子交换性能，并对其组成、结构及稳定性作了初步的研究。

hydronium：水合氢离子

hydronium ion 水合氢离子 | hydronium 水合氢离子 | hydrophile 亲水物

hydronium ion：水合氢离子

211. acetic acid 乙酸 | 212. hydronium ion 水合氢离子 | 213. electrolyte 电解质

hydronium ion：水合氢离子 本文来自:博研联盟论坛

211. acetic acid 乙酸本文来自:博研联盟论坛 | 212. hydronium ion 水合氢离子 本文来自:博研联盟论坛 | 213. electrolyte 电解质本文来自:博研联盟论坛

hydronium ion：水合氢离子 HHC化学化工资源导航

211. acetic acid 乙酸HHC化学化工资源导航 | 212. hydronium ion 水合氢离子 HHC化学化工资源导航 | 213. electrolyte 电解质HHC化学化工资源导航

aquo：水合的, 含水的 水合离子

aquiver | (多用作表示)颤抖的, 兴奋的 | aquo | 水合的, 含水的 水合离子 | aquolysis | 水解(作用)

aquated ion; aquo ion：水合离子

"水温调节器","aquastat" | "水合离子","aquated ion; aquo ion" | "水合作用","aquation"

hydrated electron：水合电子

hydrated ion 水合离子 | hydrated electron 水合电子 | hydrate water 水合水

hydrated cellulose：水合纤维素,水解纤维素

hydrated cation 水合阳离子 | hydrated cellulose 水合纤维素,水解纤维素 | hydrated clay 水合粘土

aquo-ion：水合离子

aquocomplex 水错合物 | aquo-ion 水合离子 | aquolization process 加水裂化过程

aqueous ion; aquo-ion; hydrated ion：水合离子

"aqueous fusion","水性熔化" | "aqueous ion; aquo-ion; hydrated ion","水合离子" | "aqueous layer; water layer","水层"