Multi-photon ionization experiments have been carried out on thymine-water clusters in the gas phase. Metastable H2O loss from T+(H2O)n was observed at n ≥ 3 only. Ab initio quantum-chemical calculations of a large range of optimized T+(H2O)n conformers have been performed up to n = 4, enabling binding energies of water to be derived. These decrease smoothly with n, consistent with the general trend of increasing metastable H2O loss in the experimental data. The lowest-energy conformers of T+(H2O)3 and T+(H2O)4 feature intermolecular bonding via charge-dipole interactions, in contrast with the purely hydrogen-bonded neutrals. We found no evidence for a closed hydration shell at n = 4, also contrasting with studies of neutral clusters

A. Golan

A.M. Rasmussen

B. Barc

D.M. Close

E. Bruzzi

H. Kang

H.W. Jochims

I. Hunig

J. González-Vázquez

J. Jose Serrano-Perez

J.C. Lopez

Jean-Christophe Poully

K. Khistyaev

K.E. Riley

K.W. Choi

L. Belau

M. Etinski

M. Kabelác

M. Ligare

M. Liu

M. Ryszka

Mathieu Lalande

Michal Ryszka

N.J. Kim

N.S. Hush

Nigel J. Mason

O. Dopfer

P. Colarusso

Paulo Limão-Vieira

R. Mota

R.E. Continetti

R.H. Duncan Lyngdoh

Rahul Pandey

S. Heinbuch

S. Ishiuchi

S. Kim

S.K. Kim

Samuel Eden

V. Vizcaino

V.G. Stavros

Y. Ibrahim

Y. Nosenko

Y.G. He

English

Pandey, Rahul

Lalande, Mathieu

Ryszka, Michal

Limão-Vieira, Paulo

Mason, Nigel J.

Poully, Jean-Christophe

Eden, Samuel

Open Research Online (The Open University)

Stabilities of nanohydrated thymine radical cations: insights from multiphoton ionization experiments and ab initio calculations

Crossref

The European Physical Journal D

Stabilities of nanohydrated thymine radical cations: insights  from multiphoton ionization experiments and ab initio calculations

International audienceMulti-photon ionization experiments have been carried out on thymine-water clusters in the gas phase. Metastable H2O loss from T+(H2O) n was observed at n ≥ 3 only. Ab initio quantum-chemical calculations of a large range of optimized T+(H2O) n conformers have been performed up to n = 4, enabling binding energies of water to be derived. These decrease smoothly with n, consistent with the general trend of increasing metastable H2O loss in the experimental data. The lowest-energy conformers of T+(H2O)3 and T+(H2O)4 feature intermolecular bonding via charge-dipole interactions, in contrast with the purely hydrogen-bonded neutrals. We found no evidence for a closed hydration shell at n = 4, also contrasting with studies of neutral clusters

Mason, Nigel

HAL-CEA

Stabilities of nanohydrated thymine radical cations: insights from multiphoton ionization experiments and ab initio calculations

HAL - Normandie Université

Abstract: Multi-photon ionization experiments have been carried out on thymine-water clusters in the gas phase. Metastable H2O loss from T+(H2O)n was observed at n ≥ 3 only. Ab initio quantum-chemical calculations of a large range of optimized T+(H2O)n conformers have been performed up to n = 4, enabling binding energies of water to be derived. These decrease smoothly with n, consistent with the general trend of increasing metastable H2O loss in the experimental data. The lowest-energy conformers of T+(H2O)3 and T+(H2O)4 feature intermolecular bonding via charge-dipole interactions, in contrast with the purely hydrogen-bonded neutrals. We found no evidence for a closed hydration shell at n = 4, also contrasting with studies of neutral clusters

Stabilities of nanohydrated thymine radical cations: insights from multiphoton ionization experiments and ab initio calculations

Abstract

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HAL-CEA

HAL - Normandie Université

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