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The evolution between slow and rapid chemical exchange processes in a liquid binary mixture

✍ Scribed by Marcel Besnard; M. Isabel Cabaqo; Jack Yarwood

Publisher
Elsevier Science
Year
1992
Tongue
English
Weight
217 KB
Volume
198
Category
Article
ISSN
0009-2614

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✦ Synopsis

Binary mixtures of pyridine and ethanol display Raman spectra (111 of pyridine) with significantly different band shapes at different temperatures (between 98 and 368 K). At the lowest temperature these spectra indicate the formation of a hydrogenbonded complex in the slow modulation limit (giving a Gaussian profile). At intermediate temperatures there is good evidence for two complexes, C~ and C2 (with one or two ethanol molecules ), between which chemical exchange is "slow" on the vibrational time scale. At highest temperatures exchange between C~ and C2 complexes becomes "rapid" and "collapse" of the complexed pyridine spectrum occurs to give a single Lorentzian profile. It is noted that "free" pyridine exists at all concentrations in ethanol over times long compared with the inverse observation frequency.

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✍ J. Yarwood 📂 Article 📅 1993 🏛 Elsevier Science 🌐 English ⚖ 163 KB

We emphasise that a collapsing infrared or Raman band profile with increasing temperature doesnot necessarily imply a movement between the "slow" and "rapid" exchange regimes. We point to systems where band collapse occurs in the slow regime and suggest that for a CH,CN/CH,OH binary mixture the spec