Infrared and EPR spectroscopic study of open-shell reactive intermediates: F + NH₃ in solid argon

Infrared and EPR spectroscopic study of open-shell reactive intermediates: F + NH₃ in solid argon

Mobile F atoms react with NH₃ molecules in an argon matrix at temperatures T=7–35 K. The open-shell NH₂–HF complex was observed by EPR and infrared spectroscopies as the main product of this reaction. The hyperfine constants of the NH₂–HF complex aN=1.20 mT, aH=2.40 mT, and aF=0.70 mT were determine...

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Збережено в:
Бібліографічні деталі
Дата:2000
Автори: Misochko, Eugenii Ya., Goldschleger, Ilya U., Akimov, Alexander V., Wight, Charles A.
Формат: Стаття
Мова:English
Опубліковано: Фізико-технічний інститут низьких температур ім. Б.І. Вєркіна НАН України 2000
Назва видання:Физика низких температур
Теми:
Low-Temperature Physics and Chemistry in Cryomatrice
Онлайн доступ:http://dspace.nbuv.gov.ua/handle/123456789/129220
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Назва журналу:Digital Library of Periodicals of National Academy of Sciences of Ukraine
Цитувати:Infrared and EPR spectroscopic study of open-shell reactive intermediates: F + NH₃ in solid argon / Eugenii Ya. Misochko, Ilya U. Goldschleger, Alexander V. Akimov, Charles A. Wight // Физика низких температур. — 2000. — Т. 26, № 9-10. — С. 981-991. — Бібліогр.: 43 назв. — англ.

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Digital Library of Periodicals of National Academy of Sciences of Ukraine
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Резюме:Mobile F atoms react with NH₃ molecules in an argon matrix at temperatures T=7–35 K. The open-shell NH₂–HF complex was observed by EPR and infrared spectroscopies as the main product of this reaction. The hyperfine constants of the NH₂–HF complex aN=1.20 mT, aH=2.40 mT, and aF=0.70 mT were determined from the EPR spectra of samples using NH₃, ¹⁵NH₃ and ND₃ isotopomers. Prominent features of the infrared spectrum of NH₂–HF are a strongly red-shifted HF stretching mode (Δv≈−720 cm−1(Δv≈−720 cm⁻¹ relative to that for isolated HF) and strong absorptions at 791 and 798 cm−1798 cm⁻¹ attributed to HF librational modes in the complex. Quantum chemistry calculations reveal that the hydrogen-bonded NH₂–HF complex has a planar C₂v structure and a binding energy of 51 kJ/mol. Calculated hyperfine constants and vibrational frequencies of the complex are in good agreement with those observed in the EPR and IR experiments.

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