Ab initio theoretical calculations of the electronic excitation energies of small water clusters

Hiroto Tachikawa; Akihiro Yabushita; Masahiro Kawasaki

doi:10.1039/c1cp20649d

Ab initio theoretical calculations of the electronic excitation energies of small water clusters

Hiroto Tachikawa, Akihiro Yabushita, Masahiro Kawasaki

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

A direct ab initio molecular dynamics method has been applied to a water monomer and water clusters (H₂O)_n (n = 1-3) to elucidate the effects of zero-point energy (ZPE) vibration on the absorption spectra of water clusters. Static ab initio calculations without ZPE showed that the first electronic transitions of (H₂O)_n, ¹B ₁ ← ¹A₁, are blue-shifted as a function of cluster size (n): 7.38 eV (n = 1), 7.58 eV (n = 2) and 8.01 eV (n = 3). The inclusion of the ZPE vibration strongly affects the excitation energies of a water dimer, and a long red-tail appears in the range of 6.42-6.90 eV due to the structural flexibility of a water dimer. The ultraviolet photodissociation of water clusters and water ice surfaces is relevant to these results.

Original language	English
Pages (from-to)	20745-20749
Number of pages	5
Journal	Physical Chemistry Chemical Physics
Volume	13
Issue number	46
DOIs	https://doi.org/10.1039/c1cp20649d
Publication status	Published - Dec 14 2011
Externally published	Yes

All Science Journal Classification (ASJC) codes

Physics and Astronomy(all)
Physical and Theoretical Chemistry

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10.1039/c1cp20649d

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abstract = "A direct ab initio molecular dynamics method has been applied to a water monomer and water clusters (H2O)n (n = 1-3) to elucidate the effects of zero-point energy (ZPE) vibration on the absorption spectra of water clusters. Static ab initio calculations without ZPE showed that the first electronic transitions of (H2O)n, 1B 1 ← 1A1, are blue-shifted as a function of cluster size (n): 7.38 eV (n = 1), 7.58 eV (n = 2) and 8.01 eV (n = 3). The inclusion of the ZPE vibration strongly affects the excitation energies of a water dimer, and a long red-tail appears in the range of 6.42-6.90 eV due to the structural flexibility of a water dimer. The ultraviolet photodissociation of water clusters and water ice surfaces is relevant to these results.",

author = "Hiroto Tachikawa and Akihiro Yabushita and Masahiro Kawasaki",

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AU - Tachikawa, Hiroto

AU - Yabushita, Akihiro

AU - Kawasaki, Masahiro

PY - 2011/12/14

Y1 - 2011/12/14

N2 - A direct ab initio molecular dynamics method has been applied to a water monomer and water clusters (H2O)n (n = 1-3) to elucidate the effects of zero-point energy (ZPE) vibration on the absorption spectra of water clusters. Static ab initio calculations without ZPE showed that the first electronic transitions of (H2O)n, 1B 1 ← 1A1, are blue-shifted as a function of cluster size (n): 7.38 eV (n = 1), 7.58 eV (n = 2) and 8.01 eV (n = 3). The inclusion of the ZPE vibration strongly affects the excitation energies of a water dimer, and a long red-tail appears in the range of 6.42-6.90 eV due to the structural flexibility of a water dimer. The ultraviolet photodissociation of water clusters and water ice surfaces is relevant to these results.

AB - A direct ab initio molecular dynamics method has been applied to a water monomer and water clusters (H2O)n (n = 1-3) to elucidate the effects of zero-point energy (ZPE) vibration on the absorption spectra of water clusters. Static ab initio calculations without ZPE showed that the first electronic transitions of (H2O)n, 1B 1 ← 1A1, are blue-shifted as a function of cluster size (n): 7.38 eV (n = 1), 7.58 eV (n = 2) and 8.01 eV (n = 3). The inclusion of the ZPE vibration strongly affects the excitation energies of a water dimer, and a long red-tail appears in the range of 6.42-6.90 eV due to the structural flexibility of a water dimer. The ultraviolet photodissociation of water clusters and water ice surfaces is relevant to these results.

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Ab initio theoretical calculations of the electronic excitation energies of small water clusters

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