Abstract
A non-surfactant route synthesized mesoporous AlTUD-1 (Si/Al=25) with interconnected porous networks effectively utilized as a support for 10wt% tungsten oxide (WO3) dispersions. The synthesized WO3/AlTUD-1 catalyst was characterized by different techniques. N-2 sorption and XRD studies were confirmed its amorphous mesoporous nature, which measured a pore diameter of 6.4nm and a surface area of 510m(2)g(-1). Presence of WO3 on the pores and silica TUD-1 wormhole structure were evaluated by techniques including DRUV Visible and FT-Raman. The catalyst possessed both Lewis (L) and BrOnsted (B) acidity, as measured by pyridine adsorbed FT-IR, which is responsible for the catalyst activity. WO3/AlTUD-1 acid catalyst showed an excellent catalytic performance yield of about 80% at 80 degrees C in reflux condition, for different 1-substituted benzylidene 4-methylbenzo[d]thizole-2-amines (thiazole based aryl imines) and substituted phenylhydrazone compounds.