P. Boarini et al., PHOTOCATALYTIC OXYGENATION OF CYCLOHEXANE ON TITANIUM-DIOXIDE SUSPENSIONS - EFFECT OF THE SOLVENT AND OF OXYGEN, Langmuir, 14(8), 1998, pp. 2080-2085
The photoassisted monooxygenation of C6H12 to C6H10O and C6H11OH by mo
lecular oxygen has been studied on TiO2 powder catalyst dispersed in n
eat C6H12 and in C6H12/CH2Cl2 mixtures. The composition of the mixed s
olvent has a strong influence on the selectivity of the process: an in
crease in the content of CH2Cl2 brings about both an enhancement in th
e rate of formation of mono-oxygenated products and a decrease in the
production of CO2. At the same time, the alcohol to ketone ratio incre
ases in the mixed solvent. An explanation of this behavior is proposed
which is based on the observed decrease in the adsorption strength of
intermediates (C6H11OH and radicals) as the solvent composition is va
ried from pure C6H12 to mixtures of it with increasing amounts of CH2C
l2. The results of experiments with different O-2 partial pressures ar
e reported. The process is unaffected for O-2 partial pressures > 200
Torr. Far lower values the formation of dicyclohexyl becomes significa
nt and reaches a maximum at a pO(2) of 60 Torr. In O-2-free media cont
aining C(NO2)(4) as the electron scavenger, the formation of C6H10O de
creases markedly while that of C6H11OH is essentially the same as that
in oxygenated media. In the mechanism proposed, the reaction of cyclo
hexyl radicals with O-2 and/or activated oxygen species is the main ro
ute leading to the ketone.