Abstract
The structural and vibrational parameters of FC(O)ONO and FC(O)NO2 isomers were examined theoretically using the B3LYP/6-311+G(3df) and CCSD(T)/6-311G(d) methods. Four conformers of FC(O)ONO isomer and one FC(O)NO2 isomer are found here. Among them, the trans–cis and cis–cis FC(O)ONO configuration are new conformers. The energetics were refined with G3//B3LYP and CBS-QB3 calculations. The trans–trans conformer of the FC(O)ONO isomer is found to be the lowest energy structure, with an estimated heat of formation of −104.9 kcal mol−1 at 0 K as determined from CBS-QB3 theory. The next lowest structure is the cis–trans FC(O)ONO lying 1.7 kcal mol−1 above the trans–trans structural form. The highest energy structure is the FC(O)NO2 isomer with a predicted heat of formation of −84.8 kcal mol−1. A comparison of the relative stability of the FCNO3 isomers with the isomers of ClCNO3 shows that the Cl analogues follow the same pattern of stability, as do the F isomers. However, the chlorine isomers are unstable relative to their fluorine analogues.
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