Hydrogen bonding in 1,2-diazine-chloranilic acid (2 : 1) studied by a 14N nuclear quadrupole coupling tensor and multi-temperature X-ray diffraction

Hydrogen bonding in 1,2-diazine-chloranilic acid (2 : 1) studied by a 14N nuclear quadrupole coupling tensor and multi-temperature X-ray diffraction

Protons involved in the H-bond system in 1,2-diazine-chloranilic acid (2 : 1) are assumed to be in jumping motion in the double-minimum potential corresponding to the two extreme electronic states of O-H...N and O-...H-N+. 14N nuclear quadrupole coupling constants were determined by 1H-14N nuclear q...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2009-04, Vol.11 (13), p.2281-2286
Hauptverfasser: Seliger, Janez, Zagar, Veselko, Gotoh, Kazuma, Ishida, Hiroyuki, Konnai, Akiko, Amino, Daiki, Asaji, Tetsuo
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container_title Physical chemistry chemical physics : PCCP
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creator Seliger, Janez
Zagar, Veselko
Gotoh, Kazuma
Ishida, Hiroyuki
Konnai, Akiko
Amino, Daiki
Asaji, Tetsuo
description Protons involved in the H-bond system in 1,2-diazine-chloranilic acid (2 : 1) are assumed to be in jumping motion in the double-minimum potential corresponding to the two extreme electronic states of O-H...N and O-...H-N+. 14N nuclear quadrupole coupling constants were determined by 1H-14N nuclear quadrupole double resonance. Assuming that the observed coupling constants are result of a fast exchange of the two extreme electronic states, the coupling constants for each state were estimated by use of the equilibrium populations of the two extreme states determined from multi-temperature X-ray single-crystal diffraction. It was suggested that not only the population but also the electron distribution of the extreme electronic states itself changes with temperature.
doi_str_mv 10.1039/b818318j
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title Hydrogen bonding in 1,2-diazine-chloranilic acid (2 : 1) studied by a 14N nuclear quadrupole coupling tensor and multi-temperature X-ray diffraction
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