Symmetry-breaking in the endofullerene H2O@C60revealed in the quantum dynamics of ortho and para-water: a neutron scattering investigation
Symmetry-breaking in the endofullerene H2O@C60revealed in the quantum dynamics of ortho and para-water: a neutron scattering investigation
Inelastic neutron scattering (INS) has been employed to investigate the quantum dynamics of water molecules permanently entrapped inside the cages of C60 fullerene molecules. This study of the supramolecular complex, H2O@C60, provides the unique opportunity to study isolated water molecules in a highly symmetric environment. Free from strong interactions, the water molecule has a high degree of rotational freedom enabling its nuclear spin isomers, ortho-H2O and para-H2O to be separately identified and studied. The INS technique mediates transitions between the ortho and para spin isomers and using three INS spectrometers, the rotational levels of H2O have been investigated, correlating well with the known levels in gaseous water. The slow process of nuclear spin conversion between ortho-H2O and para-H2O is revealed in the time dependence of the INS peak intensities over periods of many hours. Of particular interest to this study is the observed splitting of the ground state of ortho-H2O, raising the three-fold degeneracy into two states with degeneracy 2 and 1 respectively. This is attributed to a symmetry-breaking interaction of the water environment.
21330-21339
Goh, Kelvin S.K.
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Jiménez-Ruiz, Mónica
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Johnson, Mark R.
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Rols, Stéphane
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Ollivier, Jacques
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Denning, Mark S.
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Mamone, Salvatore
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Levitt, Malcolm H.
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Lei, Xuegong
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Li, Yongjun
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Turro, Nicholas J.
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Murata, Yasujiro
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Horsewill, Anthony J.
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22 August 2014
Goh, Kelvin S.K.
ec1cca27-b247-4e50-b4b7-54d890bd28de
Jiménez-Ruiz, Mónica
47a5f106-e1d0-4604-88cb-1900eb5d74fe
Johnson, Mark R.
c06fdb56-9ef8-47d8-89d5-48f0ff83990f
Rols, Stéphane
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Ollivier, Jacques
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Denning, Mark S.
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Mamone, Salvatore
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Levitt, Malcolm H.
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Lei, Xuegong
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Li, Yongjun
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Turro, Nicholas J.
61dfde47-9e8a-4557-8114-8bf71d67125d
Murata, Yasujiro
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Horsewill, Anthony J.
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Goh, Kelvin S.K., Jiménez-Ruiz, Mónica, Johnson, Mark R., Rols, Stéphane, Ollivier, Jacques, Denning, Mark S., Mamone, Salvatore, Levitt, Malcolm H., Lei, Xuegong, Li, Yongjun, Turro, Nicholas J., Murata, Yasujiro and Horsewill, Anthony J.
(2014)
Symmetry-breaking in the endofullerene H2O@C60revealed in the quantum dynamics of ortho and para-water: a neutron scattering investigation.
Physical Chemistry Chemical Physics, 16 (39), .
(doi:10.1039/C4CP03272A).
Abstract
Inelastic neutron scattering (INS) has been employed to investigate the quantum dynamics of water molecules permanently entrapped inside the cages of C60 fullerene molecules. This study of the supramolecular complex, H2O@C60, provides the unique opportunity to study isolated water molecules in a highly symmetric environment. Free from strong interactions, the water molecule has a high degree of rotational freedom enabling its nuclear spin isomers, ortho-H2O and para-H2O to be separately identified and studied. The INS technique mediates transitions between the ortho and para spin isomers and using three INS spectrometers, the rotational levels of H2O have been investigated, correlating well with the known levels in gaseous water. The slow process of nuclear spin conversion between ortho-H2O and para-H2O is revealed in the time dependence of the INS peak intensities over periods of many hours. Of particular interest to this study is the observed splitting of the ground state of ortho-H2O, raising the three-fold degeneracy into two states with degeneracy 2 and 1 respectively. This is attributed to a symmetry-breaking interaction of the water environment.
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Published date: 22 August 2014
Organisations:
Magnetic Resonance
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Local EPrints ID: 369191
URI: http://eprints.soton.ac.uk/id/eprint/369191
ISSN: 1463-9076
PURE UUID: 1b2ea480-5d68-42d9-8522-5c2e97e948b8
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Date deposited: 30 Sep 2014 10:32
Last modified: 15 Mar 2024 03:08
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Author:
Kelvin S.K. Goh
Author:
Mónica Jiménez-Ruiz
Author:
Mark R. Johnson
Author:
Stéphane Rols
Author:
Jacques Ollivier
Author:
Mark S. Denning
Author:
Salvatore Mamone
Author:
Xuegong Lei
Author:
Yongjun Li
Author:
Nicholas J. Turro
Author:
Yasujiro Murata
Author:
Anthony J. Horsewill
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