Nano-sized Silicalite-1: novel route of synthesis, metal impregnation and its application in selective oxidation of toluene.

Nawab, Maaz; Barot, Sunita; Bandyopadhyay, Rajib

Abstract: The novel route of synthesis and catalytic performance of nano-sized Silicalite-1 are presented. Nano-sized Silicalite-1 was initially obtained from a clear solution using sodium silicate as silica source and tetrapropylamonium hydroxide as a template. The effects of silica source on the product yield, purity, crystallization rate and crystallinity were investigated. Effect of seeds in the synthesis was also studied. Nucleation time decreased to 6 h from 24 h using 4% seed, with yield and crystallinity 70% and 90%, respectively. The catalyst was characterized by XRD, FE-SEM, TG, FITR and N2 adsorption-desorption techniques. Transition metals like Fe, Cu and Mo were impregnated by wet impregnation method. Cu-impregnated nano-sized Silicalite-1 was found to be highly active for the oxidation of toluene with H2O2.Graphical abstract: Synopsis Synthesis of nano-sized Silicalite-1, metal impregnation and its characterization by physicochemical technique are reported. Toluene oxidation using hydrogen peroxide and optimization of reaction parameters are explo

NUCLEATION; OXIDATION; TOLUENE; SILICALITE; PHYSICAL & theoretical chemistry

Journal of Chemical Sciences, 2019, Vol 131, Issue 1, p1

0974-3626

Academic Journal

10.1007/s12039-018-1579-0