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Intramolecular interactions in rhodium monoxide and halogen azides

Part A. Vibronic transitions of rhodium monoxide (Rh¹⁶O and Rh¹⁸O) were observed in
the 380 to 700 nm region. Laser-induced fluorescence identified two ²[pi]r - X⁴Σ⁻ progressions
with origins at {15 667, 15 976} and {15 874, 16 167} cm⁻¹. These progressions
were labeled [15.8] ²[pi] - X⁴Σ⁻ and [16.0] ²[pi] - X⁴Σ⁻, respectively. Vibrational parameters
were determined for the ground and excited states...
Part B. Density functional and configuration interaction calculations on the lowest singlet
and triplet potential energy surfaces of hydrogen, fluorine, and chlorine azide for the
reactions XN₃ (~X¹A¹) -- NX(X³Σ; a¹Δ) + N₂ (X¹Σ⁺g) and XN₃ -- X(X²S; X²P₃/₂) +
N₃(X²[pi]g) (X = H, F, Cl) show that the lowest energy dissociation pathway proceeds exothermically to NX(a) + N₂ . This surface is crossed on the bound singlet region by a dissociative
triplet surface. Unimolecular decomposition rates for each pathway and the
branching ratio support the experimental observations: HN₃ dissociates to ground state
products while FN₃ and CIN₃ produce significant amounts of electronically excited NX. / Graduate

Identiferoai:union.ndltd.org:uvic.ca/oai:dspace.library.uvic.ca:1828/8071
Date05 May 2017
CreatorsJensen, Roy Henry
ContributorsBalfour, Walter J
Source SetsUniversity of Victoria
LanguageEnglish, English
Detected LanguageEnglish
TypeThesis
RightsAvailable to the World Wide Web

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