Clay supported iron compound catalysts for oxidation of cyclooctane

Abstract

Bentonite, kaolinite and talcum-supported iron compound catalysts were synthesized for cyclooctane oxidation by ion exchange method. Iron compounds studied were: iron (II) sulfate, iron (III) chloride, iron (III) nitrate, iron (III) acetylacetonate, iron (III) pyrazinate iron (III) picolinate and iron (III) bipyridine. The catalysts were characterized by several techniques: XRD, XRF or AAS, FT-IR and SEM. The catalytic performance of clay supported iron catalysts was studied using oxidation of cyclooctane. The products of reaction, cyclooctanol and cyclooctanone were analyzed by GC and the selectivity to cyclooctanone was observed. Parameters affecting the oxidation were studied. The optimum condition was 70 ํC for 24 hours with 70% TBHP in water as an oxidant. It was found that clay, the ligand and oxidant affected the catalyst acitivity. The results showed that bentonite supported iron (III) acetylacetonate catalyst with iron content of 4.4% gave the highest %conversion (1.7%). Bentonite supported iron provided higher %conversion than that on kaolinite of talcum. The mechanism of the cyclooctane oxidation with tert-butyl hydroperoxide was proposed to occur via alkyl hydroperoxide intermediate in radical pathway. In addition, the catalysts can be reused