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小Li(NH₃)ₙ和Li(NH₃)ₙ⁺团簇(n = 1 - 5)的结构:光电离效率测量与从头算相结合的证据

Structures of small Li(NH3)n and Li(NH3)n+ clusters (n = 1-5): evidence from combined photoionization efficiency measurements and ab initio calculations.

作者信息

Salter Tom E, Ellis Andrew M

机构信息

Department of Chemistry, University of Leicester, University Road, Leicester, LE1 7RH, United Kingdom.

出版信息

J Phys Chem A. 2007 Jun 14;111(23):4922-6. doi: 10.1021/jp071622a. Epub 2007 May 23.

DOI:10.1021/jp071622a
PMID:17518456
Abstract

Photoionization threshold measurements have been carried out for small Li(NH3)n clusters (n = 1-5) and have been combined with ab initio calculations to determine structural information. The calculated adiabatic ionization energy for the lowest-energy isomer of each cluster is found to be in excellent agreement with the corresponding experimental photoionization threshold, providing evidence that the calculated structures are correct. The combination of the photoionization efficiency curve and the calculated adiabatic ionization energies also confirms the tentative assignment of the infrared spectrum of Li(NH3)4 reported by Salter and co-workers (J. Chem. Phys. 2006, 125, 34302); i.e., the 3 + 1 isomer does not contribute and the spectrum is due solely to the 4 + 0 isomer. The findings are consistent with an inner solvation shell that can hold a maximum of four ammonia molecules around the central lithium atom.

摘要

已对小的Li(NH₃)ₙ团簇(n = 1 - 5)进行了光电离阈值测量,并将其与从头算计算相结合以确定结构信息。发现每个团簇最低能量异构体的计算绝热电离能与相应的实验光电离阈值非常吻合,这证明计算出的结构是正确的。光电离效率曲线与计算出的绝热电离能的结合也证实了索尔特及其同事报道的Li(NH₃)₄红外光谱的初步归属(《化学物理杂志》2006年,125卷,34302页);即,3 + 1异构体不产生贡献,光谱仅由4 + 0异构体产生。这些发现与一个内溶剂化壳层一致,该壳层在中心锂原子周围最多可容纳四个氨分子。

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