Thermochromism in Oligothiophenes: the Role of the Internal Rotation
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Elmacı, Nuran
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BRONZE
Green Open Access
Yes
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No
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Abstract
The relation between thermochromism in polythiophenes and the internal rotation is studied by density-functional theory (DFT). For head-to-tail methyl-substituted thiophenes, rotational potential maps of dimer and trimer are calculated. With time-dependent-DFT methodology the absorption spectra of these oligomers in UV-vis region are calculated as functions of the torsional angles. Theoretical temperature-dependent UV-vis spectra are generated from the distribution of torsional angles. The results show that the internal rotation alone is not sufficient to explain the mechanism of thermochromism.
Description
Keywords
Molecular dynamics, Oligothiophenes, Absorption spectroscopy, Entropy, Hydrocarbons, Hydrogen bonds, Absorption spectroscopy, Entropy, Oligothiophenes, Molecular dynamics, Hydrocarbons, Hydrogen bonds
Fields of Science
01 natural sciences, 0104 chemical sciences
Citation
Elmacı, N., and Yurtsever, E. (2002). Thermochromism in oligothiophenes: The role of the internal rotation. Journal of Physical Chemistry A, 106(49), 11981-11986. doi:10.1021/jp026768i
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OpenCitations Citation Count
11
Volume
106
Issue
49
Start Page
11981
End Page
11986
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CrossRef : 11
Scopus : 16
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779
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546
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