Ne, Ar, and Kr oscillators in the molecular cavity of fullerene C60
Ne, Ar, and Kr oscillators in the molecular cavity of fullerene C60
We used THz (terahertz) and INS (inelastic neutron scattering) spectroscopies to study the interaction between an endohedral noble gas atom and the C60 molecular cage. The THz absorption spectra of powdered A@C60 samples (A = Ar, Ne, Kr) were measured in the energy range from 0.6 to 75 meV for a series of temperatures between 5 and 300 K. The INS measurements were carried out at liquid helium temperature in the energy transfer range from 0.78 to 54.6 meV. The THz spectra are dominated by one line, between 7 and 12 meV, at low temperatures for three noble gas atoms studied. The line shifts to higher energy and broadens as the temperature is increased. Using a spherical oscillator model, with a temperature-independent parameterized potential function and an atom-displacement-induced dipole moment, we show that the change of the THz spectrum shape with temperature is caused by the anharmonicity of the potential function. We find good agreement between experimentally determined potential energy functions and functions calculated with Lennard-Jones additive pair-wise potentials with parameters taken from the work of Pang and Brisse, J. Chem. Phys. 97, 8562 (1993).
Jafari, Tanzeeha
61ee9e84-ddd1-44fe-9f81-278019d45119
Shugai, Anna
919cb44b-125c-4f62-bd57-b9253615ab2b
Nagel, Urmas
18190a5a-a4c2-49d2-9a44-2ba31eb57655
Bacanu, George Razvan
181f3a56-e8da-445f-b9c6-c8ead171433f
Aouane, Mohamed
35da07e4-888a-4ae7-93d2-527f6113e49f
Jiménez-ruiz, Monica
47a5f106-e1d0-4604-88cb-1900eb5d74fe
Rols, Stéphane
604c9299-aeff-4d5e-a16c-54a2f9b50108
Bloodworth, Sally
943160fc-1b70-4c29-b2e3-b7785cee8a0c
Walkey, Mark
432139de-52cb-4e28-9ad0-b254e0523775
Hoffman, Gabriela
8b98ba1c-ee09-4922-82e4-a9240aa12e64
Whitby, Richard J.
45632236-ab00-4ad0-a02d-6209043e818b
Levitt, Malcolm H.
bcc5a80a-e5c5-4e0e-9a9a-249d036747c3
Rõõm, Toomas
49325730-0d65-4f8a-b8b8-776696939cbc
21 June 2023
Jafari, Tanzeeha
61ee9e84-ddd1-44fe-9f81-278019d45119
Shugai, Anna
919cb44b-125c-4f62-bd57-b9253615ab2b
Nagel, Urmas
18190a5a-a4c2-49d2-9a44-2ba31eb57655
Bacanu, George Razvan
181f3a56-e8da-445f-b9c6-c8ead171433f
Aouane, Mohamed
35da07e4-888a-4ae7-93d2-527f6113e49f
Jiménez-ruiz, Monica
47a5f106-e1d0-4604-88cb-1900eb5d74fe
Rols, Stéphane
604c9299-aeff-4d5e-a16c-54a2f9b50108
Bloodworth, Sally
943160fc-1b70-4c29-b2e3-b7785cee8a0c
Walkey, Mark
432139de-52cb-4e28-9ad0-b254e0523775
Hoffman, Gabriela
8b98ba1c-ee09-4922-82e4-a9240aa12e64
Whitby, Richard J.
45632236-ab00-4ad0-a02d-6209043e818b
Levitt, Malcolm H.
bcc5a80a-e5c5-4e0e-9a9a-249d036747c3
Rõõm, Toomas
49325730-0d65-4f8a-b8b8-776696939cbc
Jafari, Tanzeeha, Shugai, Anna, Nagel, Urmas, Bacanu, George Razvan, Aouane, Mohamed, Jiménez-ruiz, Monica, Rols, Stéphane, Bloodworth, Sally, Walkey, Mark, Hoffman, Gabriela, Whitby, Richard J., Levitt, Malcolm H. and Rõõm, Toomas
(2023)
Ne, Ar, and Kr oscillators in the molecular cavity of fullerene C60.
The Journal of Chemical Physics, 158 (23), [234305].
(doi:10.1063/5.0152628).
Abstract
We used THz (terahertz) and INS (inelastic neutron scattering) spectroscopies to study the interaction between an endohedral noble gas atom and the C60 molecular cage. The THz absorption spectra of powdered A@C60 samples (A = Ar, Ne, Kr) were measured in the energy range from 0.6 to 75 meV for a series of temperatures between 5 and 300 K. The INS measurements were carried out at liquid helium temperature in the energy transfer range from 0.78 to 54.6 meV. The THz spectra are dominated by one line, between 7 and 12 meV, at low temperatures for three noble gas atoms studied. The line shifts to higher energy and broadens as the temperature is increased. Using a spherical oscillator model, with a temperature-independent parameterized potential function and an atom-displacement-induced dipole moment, we show that the change of the THz spectrum shape with temperature is caused by the anharmonicity of the potential function. We find good agreement between experimentally determined potential energy functions and functions calculated with Lennard-Jones additive pair-wise potentials with parameters taken from the work of Pang and Brisse, J. Chem. Phys. 97, 8562 (1993).
Text
234305_1_5.0152628
- Version of Record
More information
Accepted/In Press date: 5 June 2023
Published date: 21 June 2023
Additional Information:
Funding Information:
This research was supported by the Estonian Ministry of Education, personal research funding PRG736; the European Regional Development Fund, Project No. TK134; and EPSRC under Grant Nos. EP/P009980/1 and EP/T004320/1 of UK. Use of the INS spectroscopy setup was granted by the ILL through Proposal No. 7-04-176 (doi: 10.5291/ILL-DATA.7-04-176 ). M.A. acknowledges the ILL for a financial support.
Publisher Copyright:
© 2023 Author(s).
Identifiers
Local EPrints ID: 478694
URI: http://eprints.soton.ac.uk/id/eprint/478694
ISSN: 0021-9606
PURE UUID: f0f568bf-2626-47c6-b83e-f7a814a3ecac
Catalogue record
Date deposited: 07 Jul 2023 16:37
Last modified: 06 Jun 2024 01:40
Export record
Altmetrics
Contributors
Author:
Tanzeeha Jafari
Author:
Anna Shugai
Author:
Urmas Nagel
Author:
George Razvan Bacanu
Author:
Mohamed Aouane
Author:
Monica Jiménez-ruiz
Author:
Stéphane Rols
Author:
Mark Walkey
Author:
Gabriela Hoffman
Author:
Toomas Rõõm
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
