Understanding the influence of polymorphism on phonon spectra: lattice dynamics calculations and terahertz spectroscopy of carbamazepine
Understanding the influence of polymorphism on phonon spectra: lattice dynamics calculations and terahertz spectroscopy of carbamazepine
Rigid molecule atomistic lattice dynamics calculations have been performed to predict the phonon spectra of the four polymorphs of carbamazepine, and these calculations predict that there should be differences in the spectra of all four forms. Terahertz spectra have been measured for forms I and III, and there are clearly different features between polymorphs' spectra, that are accentuated at low temperature. While carbamazepine adopts the same hydrogen bonded dimers in all of its known polymorphs, the calculations show that differences in packing arrangements of the dimers lead to changes in the frequency ranges for each type of hydrogen bond vibration, giving a physical explanation to the observed differences between the spectra. Although the agreement between calculated and observed spectra does not allow a definitive characterization of the spectra, it is possible to make tentative assignments of many of the observed features in the terahertz region for the simpler form III; we can only make some tentative assignments of specific modes in the more complex spectrum of form I. While harmonic rigid molecule lattice dynamics shows promise for understanding the differences in spectra between polymorphs of organic molecules, discrepancies between observed and calculated spectra suggest areas of improvement in the computational methods for more accurate modeling of the dynamics in molecular organic crystals.
447-456
Day, G.M.
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Zeitler, J.A.
03040b47-1ad4-4f12-a77d-b2f53ec41cb8
Jones, W.
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Rades, T.
2f896c65-b058-4190-9a2c-ba251acb3004
Taday, P.F.
89774caf-6514-43c9-acf0-bf5248093e1e
12 January 2006
Day, G.M.
e3be79ba-ad12-4461-b735-74d5c4355636
Zeitler, J.A.
03040b47-1ad4-4f12-a77d-b2f53ec41cb8
Jones, W.
c18f6cea-13e4-4c34-b280-f95cf8c6dd12
Rades, T.
2f896c65-b058-4190-9a2c-ba251acb3004
Taday, P.F.
89774caf-6514-43c9-acf0-bf5248093e1e
Day, G.M., Zeitler, J.A., Jones, W., Rades, T. and Taday, P.F.
(2006)
Understanding the influence of polymorphism on phonon spectra: lattice dynamics calculations and terahertz spectroscopy of carbamazepine.
The Journal of Physical Chemistry B, 110 (1), .
(doi:10.1021/jp055439y).
Abstract
Rigid molecule atomistic lattice dynamics calculations have been performed to predict the phonon spectra of the four polymorphs of carbamazepine, and these calculations predict that there should be differences in the spectra of all four forms. Terahertz spectra have been measured for forms I and III, and there are clearly different features between polymorphs' spectra, that are accentuated at low temperature. While carbamazepine adopts the same hydrogen bonded dimers in all of its known polymorphs, the calculations show that differences in packing arrangements of the dimers lead to changes in the frequency ranges for each type of hydrogen bond vibration, giving a physical explanation to the observed differences between the spectra. Although the agreement between calculated and observed spectra does not allow a definitive characterization of the spectra, it is possible to make tentative assignments of many of the observed features in the terahertz region for the simpler form III; we can only make some tentative assignments of specific modes in the more complex spectrum of form I. While harmonic rigid molecule lattice dynamics shows promise for understanding the differences in spectra between polymorphs of organic molecules, discrepancies between observed and calculated spectra suggest areas of improvement in the computational methods for more accurate modeling of the dynamics in molecular organic crystals.
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e-pub ahead of print date: 15 December 2005
Published date: 12 January 2006
Organisations:
Organic Chemistry: Synthesis, Catalysis and Flow, Computational Systems Chemistry
Identifiers
Local EPrints ID: 343453
URI: http://eprints.soton.ac.uk/id/eprint/343453
ISSN: 1520-6106
PURE UUID: 3eb23017-5983-4515-8eb1-e144ed63ea55
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Date deposited: 05 Feb 2013 15:35
Last modified: 15 Mar 2024 03:44
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Author:
J.A. Zeitler
Author:
W. Jones
Author:
T. Rades
Author:
P.F. Taday
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