Abstract
In contrast to theoretical expectations, the photolysis of 2,4,6-triazido-3-chloro-5-fluoropyridine in argon at 5 K gives rise to EPR peaks of just two triplet mononitrenes, two quintet dinitrenes, and a septet trinitrene. EPR spectral simulations in combination with DFT calculations show that observable nitrenes can be assigned to triplet 2,4-diazido-3-chloro-5-fluoropyridyl-6-nitrene (DT = 1.026 cm−1, ET = 0), triplet 2,6-diazido-3-chloro-5-fluoropyridyl-4-nitrene (DT = 1.122 cm−1, ET = 0.0018 cm−1), quintet 4-azido-3-chloro-5-fluoropyridyl-2,6-dinitrene (DQ = 0.215 cm−1, EQ = 0.0545 cm−1), quintet 2-azido-3-chloro-5-fluoropyridyl-4,6-dinitrene (DQ = 0.209 cm−1, EQ = 0.039 cm−1) and septet 3-chloro-5-fluoropyridyl-2,4,6-trinitrene (DS = −0.1021 cm−1, ES = −0.0034 cm−1). Preferential photodissociation of the azido groups located in ortho-positions to the fluorine atom of pyridines is associated with strong π-conjugation of these groups with the pyridine ring. On photoexcitation, such azido groups are more efficiently involved in reorganization of the molecular electronic system and more easily adopt geometries of the locally excited predissociation states.
Highlights
High-spin nitrenes are highly reactive intermediates formed during photolysis or thermolysis of aromatic polyazides
We report on matrix isolation and EPR studies of high-spin intermediates formed during the photolysis of asymmetric triazide 11, providing the first information about selective photochemical decomposition of three nonequivalent azido groups in monocyclic aromatic compounds
The results obtained show that almost all triplet and quintet nitrenes detected in the present study arise from the photolysis of the azido groups located in ortho-positions to the fluorine atom of pyridines
Summary
High-spin nitrenes are highly reactive intermediates formed during photolysis or thermolysis of aromatic polyazides. The photolysis of triazide 7 occurs selectively on the azido group located on the γ-phenyl ring, yielding dinitrene 9 as a single quintet intermediate (Scheme 1) [10] All these photochemical studies became possible owing to extensive EPR investigations of various high-spin nitrenes in the past two decades [11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31].
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