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Literature DB >> 21974523

Interplay between charge and vibrational delocalization in cationic helium clusters.

Abstract

The stable structures and low temperature thermodynamics of cationic helium clusters are investigated theoretically using a diatomics-in-molecules model for the potential energy surfaces and a computational framework in which both electronic and nuclear degrees of freedom are treated on a quantum mechanical footing. While the charge is generally carried by two atoms, vibrational delocalization significantly spreads out the charge over multiple isomers for clusters containing five or more helium atoms. Our calculations indicate that large clusters are essentially fluid with a well-defined solvation shell around the charged core.

Entities: Chemical

Year: 2011 PMID： 21974523 DOI： 10.1063/1.3641895

Source DB: PubMed Journal: J Chem Phys ISSN： 0021-9606 Impact factor: 3.488

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Cited

3 in total

1. Non-adiabatic couplings and dynamics in proton transfer reactions of Hn (+) systems: Application to H2+H2 (+)→H+H3 (+) collisions.

Authors: Cristina Sanz-Sanz; Alfredo Aguado; Octavio Roncero; Fedor Naumkin
Journal: J Chem Phys Date: 2015-12-21 Impact factor: 3.488

2. On the size and structure of helium snowballs formed around charged atoms and clusters of noble gases.

Authors: Peter Bartl; Christian Leidlmair; Stephan Denifl; Paul Scheier; Olof Echt
Journal: J Phys Chem A Date: 2013-11-07 Impact factor: 2.781

3. The S∴π hemibond and its competition with the S∴S hemibond in the simplest model system: infrared spectroscopy of the [benzene-(H₂S) _n ]⁺ (n = 1-4) radical cation clusters.

Authors: Dandan Wang; Keigo Hattori; Asuka Fujii
Journal: Chem Sci Date: 2019-06-19 Impact factor: 9.825

3 in total

Interplay between charge and vibrational delocalization in cationic helium clusters.

1. Non-adiabatic couplings and dynamics in proton transfer reactions of Hn (+) systems: Application to H2+H2 (+)→H+H3 (+) collisions.

2. On the size and structure of helium snowballs formed around charged atoms and clusters of noble gases.

3. The S∴π hemibond and its competition with the S∴S hemibond in the simplest model system: infrared spectroscopy of the [benzene-(H2S) n ]+ (n = 1-4) radical cation clusters.

3. The S∴π hemibond and its competition with the S∴S hemibond in the simplest model system: infrared spectroscopy of the [benzene-(H₂S) _n ]⁺ (n = 1-4) radical cation clusters.