Cosolvent and Local Environment Effects of Vanadium Incorporation on MCM-41 Catalysts for Selective Oxidation Reactions

Abstract: Many oxidative and reductive processes have made extensive use of supported vanadium oxide catalysts. Understanding surface-active speciation and support interactions in these materials is critical to the development of heterogeneous catalysts. In this context, the vanadium incorporated on Mobil Composition of Matter No. 41 (V-MCM-41) catalysts were prepared with ethanol (AM) and without ethanol (NAM) at room temperature. The chemical and structural properties of the V-MCM-41 (AM) and V-MCM-41 (NAM) materials … Show more

“…This contribution aims at designing an efficient heterogeneous acid–base bifunctional catalyst for the direct conversion of glucose to HMF under green and mild conditions. Due to the remarkable comprehensive properties such as regularly arranged pore architecture, large surface area, and high thermal stability, MCM-41 mesoporous silica could be a good choice as catalyst support. , This motivated us to prepare a solid catalyst containing acidic (−SO 3 H) and basic (−NH) sites through the postsynthetic grafting of sulfanilic acid on MCM-41. Specifically, we chose to evaluate the catalytic activity of the prepared catalyst in the one-pot transformation of glucose to HMF in water as a green solvent, and the effects of reaction time, temperature, and amount of catalyst and glucose on the HMF yield were examined.…”

Highly Efficient One-Pot Conversion of Glucose to 5-Hydroxymethylfurfural over Acid–Base Bifunctional MCM-41 Mesoporous Silica under Mild Aqueous Conditions

“…This contribution aims at designing an efficient heterogeneous acid–base bifunctional catalyst for the direct conversion of glucose to HMF under green and mild conditions. Due to the remarkable comprehensive properties such as regularly arranged pore architecture, large surface area, and high thermal stability, MCM-41 mesoporous silica could be a good choice as catalyst support. , This motivated us to prepare a solid catalyst containing acidic (−SO 3 H) and basic (−NH) sites through the postsynthetic grafting of sulfanilic acid on MCM-41. Specifically, we chose to evaluate the catalytic activity of the prepared catalyst in the one-pot transformation of glucose to HMF in water as a green solvent, and the effects of reaction time, temperature, and amount of catalyst and glucose on the HMF yield were examined.…”

Highly Efficient One-Pot Conversion of Glucose to 5-Hydroxymethylfurfural over Acid–Base Bifunctional MCM-41 Mesoporous Silica under Mild Aqueous Conditions

Optimizing acidic site control for selective conversion of biomass-based sugar to furfural and levulinic acid through HSiW/MCM-41 catalyst

Eco-friendly nitration of acetanilide over MCM-41-supported CeCuCoOx catalyst: A solid acidic catalysis strategy