THEORETICAL STUDIES OF LARGE WATER CLUSTERS - (H2O)(28), (H2O)(29), (H2O)(30), AND (H2O)(31) HEXAKAIDECAHEDRAL STRUCTURES

Khan A.

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THEORETICAL STUDIES OF LARGE WATER CLUSTERS - (H2O)(28), (H2O)(29), (H2O)(30), AND (H2O)(31) HEXAKAIDECAHEDRAL STRUCTURES

机译：大型水团的理论研究-（H2O）（28），（H2O）（29），（H2O）（30）和（H2O）（31）六面体的十面体结构

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The 28, 29, 30, and 31 mer hexakaidecahedral water clusters were studied by applying the intermediate neglect of differential overlap self-consistent field restricted Hartree-Fock method (INDO SCF RHF) after parametrization for H and O atoms. The most stable 29 and 30 mer clusters have one and two water molecules, respectively within the cavity of the distorted hexakaidecahedral cage with stabilization energy/monomer values of around 10.9 and 11.0 kcal, respectively. The 31 mer cluster with three water molecules within the cavity is less stable than the isomer with two molecules within the cavity and the third one bonded outside of the cage by around 3 kcal/mol. (C) 1997 American Institute of Physics. [References: 15]

机译：通过对H和O原子进行参数化后，应用微分重叠自洽场受限Hartree-Fock方法（INDO SCF RHF）的中间忽略，研究了28、29、30和31个mer六面体的水簇。最稳定的29和30 mer簇分别在扭曲的六面十二面体笼腔内具有一个和两个水分子，其稳定能/单体值分别约为10.9和11.0 kcal。与在腔内具有两个分子的异构体相比，在腔内具有三个水分子的31 mer簇的稳定性较差，而第三个异构体在笼子外的结合力约为3 kcal / mol。（C）1997美国物理研究所。 [参考：15]

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《The Journal of Chemical Physics》 |1997年第13期|共4页
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Khan A.;
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中图分类物理化学（理论化学）、化学物理学;
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1. THEORETICAL STUDIES OF LARGE WATER CLUSTERS - (H2O)(28), (H2O)(29), (H2O)(30), AND (H2O)(31) HEXAKAIDECAHEDRAL STRUCTURES [J] . Khan A. The Journal of Chemical Physics . 1997,第13期

机译：大型水团的理论研究-（H2O）（28），（H2O）（29），（H2O）（30）和（H2O）（31）六面体的十面体结构
2. Undissociated versus Dissociated Structures for Water Clusters and Ammonia-Water Clusters: (H2O)_n and NH3(H2O)_(n-1) (n = 5, 8, 9, 21). Theoretical Study [J] . S. Karthikeyan, N. Jiten Singh, Kwang S. Kim The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2008,第29期

机译：水团和氨水团的未解离与解离结构：（H2O）_n和NH3（H2O）_（n-1）（n = 5、8、9、21）。理论研究
3. THEORETICAL STUDIES OF TETRAKAIDECAHEDRAL STRUCTURES OF (H2O)(24), (H2O)(25) AND (H2O)(26) CLUSTERS [J] . Khan A. Chemical Physics Letters . 1996,第3a4期

机译：（H2O）（24），（H 2 O）（25）和（H2O）（26）簇簇的四面八面向结构的理论研究
4. Theoretical study on NaCl-water clusters: NaCl(H2O)n (n=1-8) [C] . SUZUKI Keigo, KUROKI Kanato, ZENITSUBO Narumi 日本化学会春季年会講演予稿集 . 2018

机译：NaCl-水簇的理论研究：NaCl（H2O）n（n = 1-8）
5. First Principle Studies on Solvation and Electronic Structures in M(-)Ln, with M(-)= Lithium(-)and Sodium(-), L = H2O and NH3, and n = 1-10 [D] . Zhang, Han 2012

机译：M（-）Ln中溶剂化和电子结构的第一原理研究，M（-）=锂（-）和钠（-），L = H2O和NH3，n = 1-10
6. A Theoretical Study of the Binding of Re6Se8(OH)2(H2O)4 Rhenium Clusters to DNA Purine Base Guanine [O] . Leonor Alvarado-Soto, Rodrigo Ramirez-Tagle 2015

机译：Re6Se8（OH）2（H2O）4 Cluster簇与DNA嘌呤碱基鸟嘌呤结合的理论研究
7. Lowest-Energy Structures of Water Clusters (H2O)11 and (H2O)13 [O] . -1

机译：水簇（H2O）11和（H2O）13的最低能量结构

THEORETICAL STUDIES OF LARGE WATER CLUSTERS - (H2O)(28), (H2O)(29), (H2O)(30), AND (H2O)(31) HEXAKAIDECAHEDRAL STRUCTURES

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