Theoretical investigation of the structures and spectroscopic properties of (H2O4)(n) (n=1-4) clusters

Kim Hong-Dal; Seo Hyun-Il; Song Hui-Seong; Kim Seung-Joon

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Theoretical investigation of the structures and spectroscopic properties of (H2O4)(n) (n=1-4) clusters

机译：（H2O4）（n）（n = 1-4）团簇的结构和光谱性质的理论研究

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Density functional theory and ab initio calculations were performed to elucidate the hydrogen interactions in (H2O4)(n) (n=1-4) clusters. The optimized geometries, binding energies, and harmonic vibrational frequencies were predicted at various levels of theory. The trans conformer of the H2O4 monomer was predicted to be the most stable structure at the CCSD(T)/aug-cc-pVTZ level of theory. The binding energies per H2O4 monomer increased in absolute value by 9.0, 10.1, and 11.8 kcal/mol from n=2 to n=4 at the MP2/cc-pVTZ level of theory (after the zero-point vibrational energy and basis set superposition error corrections). This result implies that the intermolecular hydrogen bonds were stronger in the long-chain clusters, that is, the formation of the longer chain in the (H2O4)(n) clusters was more energetically favorable.

机译：进行密度泛函理论和从头算计算以阐明（H2O4）（n）（n = 1-4）团簇中的氢相互作用。在各种理论水平上都预测了优化的几何形状，结合能和谐波振动频率。在理论上的CCSD（T）/ aug-cc-pVTZ水平上，H2O4单体的反式构象体被认为是最稳定的结构。在理论上的MP2 / cc-pVTZ水平上（在零点振动能和基点叠加之后），每个H2O4单体的结合能的绝对值从n = 2的绝对值分别增加9.0、10.1和11.8 kcal / mol至n = 4。错误更正）。该结果暗示在长链簇中分子间氢键更强，即在（H 2 O 4）（n）簇中较长链的形成在能量上更有利。

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《International Journal of Quantum Chemistry》 |2016年第19期|共10页
作者
Kim Hong-Dal; Seo Hyun-Il; Song Hui-Seong; Kim Seung-Joon;
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正文语种 eng
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binding energy; CCSD(T); density functional theory; dihydrogen polyoxides; (H2O4)(n) cluster;

机译：结合能;CCSD（T）;密度泛函理论;多氧化二氢;（H2O4）（n）簇;

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Theoretical investigation of the structures and spectroscopic properties of (H2O4)(n) (n=1-4) clusters

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