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W3204413809 endingPage "111370" @default.
W3204413809 startingPage "111370" @default.
W3204413809 abstract "Phenanthrene, the smallest phenacene molecule, has attracted attention since its discovery more than a century ago. Its mono-aza derivatives are also historical compounds and the best candidates for examining the effect of nitrogen atoms on the electronic structure. We used density functional theory to investigate the electronic properties of phenanthrene and a series of its mono-aza derivatives. The results of these calculations were discussed in compariton with experimental observations such as infrared spectra, absorption and emission spectra, and cyclic voltammograms. The two low-lying ππ* excited states of phenanthrene are discussed on the basis of the Lb and La states under Platt’s nomenclature. Upon cursory inspection, similar assignments appeared to apply to the excited states of the monoazaphenanthrene compounds; however, the transition dipole moment indicated that simple assignments could not be applied to these compounds. Of the five mono-aza derivatives, benz[f]isoquinoline was an exception, and simple assignments could be applied." @default.
W3204413809 created "2021-10-11" @default.
W3204413809 creator A5028386204 @default.
W3204413809 creator A5035323233 @default.
W3204413809 creator A5038453378 @default.
W3204413809 creator A5044761027 @default.
W3204413809 creator A5076277792 @default.
W3204413809 creator A5078690803 @default.
W3204413809 date "2022-01-01" @default.
W3204413809 modified "2023-10-16" @default.
W3204413809 title "Systematical study on the electronic properties of monoazaphenanthrene compounds by theoretical calculations and experimental observations" @default.
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W3204413809 doi "https://doi.org/10.1016/j.chemphys.2021.111370" @default.
W3204413809 hasPublicationYear "2022" @default.
W3204413809 type Work @default.
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