PATHWAYS OF FORMATION OF XENOBIOTICS OF THE DIOXIN TYPE - QUANTUM-CHEMICAL CONSIDERATION .2. 1,2-KETOCARBENES AS INTERMEDIATES IN THE CONVERSIONS OF POLYCHLOROPHENOLS TO DIOXIN
Av. Fokin et al., PATHWAYS OF FORMATION OF XENOBIOTICS OF THE DIOXIN TYPE - QUANTUM-CHEMICAL CONSIDERATION .2. 1,2-KETOCARBENES AS INTERMEDIATES IN THE CONVERSIONS OF POLYCHLOROPHENOLS TO DIOXIN, Bulletin of the Russian Academy of Sciences, Division of Chemical Sciences, 41(8), 1992, pp. 1346-1350
The AM1 method was used to calculate the enthalpies of formation of po
lychlorinated 1,2-ketocarbenes (PCKC) from polychlorophenols (PCP) acc
ording to a two-step scheme - deprotonation with the formation of poly
chlorophenolate anions (PCPA, DELTAH-1) and dechlorination to PCKC (DE
LTAH-2). It was shown that the biradical state of PCKC has a lower ene
rgy than the singlet state. The influence of the solvent on DELTAH-1 a
nd DELTAH-2 was estimated within the framework of the solvation model.
It was shown that DELTAH-1 decreases with increasing number of Cl ato
ms in PCP, which is evidence of an increase in the acidity, whereas DE
LTAH-2 increases, which is due to an increase in the relative stabilit
y of PCPA with increasing number of Cl atoms. A calculation of the dim
erization of PCKC in the singlet state showed that this process occurs
with virtually no activation energy. The electronic state of 1,2-keto
carbene and its analogs in the singlet state was studied by a nonempir
ical MO LCAO SCF method. A comparison with 1,2-thioketocarbene and its
analogs was performed.