Ultrafast oxidative desulfurization of diesel fuel catalyzed by a polyoxometalate-based catalyst immobilized on functionalized Y-SBA-15

Y-SBA-15 was synthesized by doping yttrium (Y) into SBA-15 using a solvent-free solid-state grinding method, and 1-butyl-3-methylimidazolium phosphomolybdic salt ([Bmim](3)PMo12O40, abbreviated as [Bmim]PMoO) was also synthesized. [Bmim]PMoO/Y-SBA-15 was prepared and used for oxidative desulfurization (ODS). The physicochemical characteristics of the catalyst have been characterized by FT-IR, XRD, N-2 adsorption-desorption, FESEM, TEM, XPS, contact angle testing, EPR, etc. A lipophilic surface is beneficial for making the catalyst well disperse in an oil phase, and a hydrophilic core can help to store aqueous oxidants. Therefore, the amphiphilic catalyst 25[Bmim]PMoO/10Y-SBA-15 exhibited high catalytic activity in dibenzothiophene (DBT) ODS, and sulfur compounds can be removed completely within 40 min under the following conditions: V-Oil = 10 mL, m(catalyst) = 0.1 g, m([Bmim]PMoO) : m([Bmim]PMoO/10Y-SBA-15) = 25%, and O/S = 4 (molar ratio). In addition, the concentration of aromatics exerted little effect on the DBT ODS. Sulfur compounds in real diesel might be reduced to 8 mu g g(-1). The hydroxyl radical OH and superoxide radical O-2(-) play crucial roles in the ODS reaction, and the ODS reaction mechanism was also proposed.

Automated summary

Y-SBA-15 was synthesized by doping yttrium into SBA-15 using a solvent-free solid-state grinding method, and [Bmim] PMoO was also synthesized. The amphiphilic catalyst 25[Bmim] PMoO/10Y-SBA-15 exhibited high catalytic activity in ODS, and sulfur compounds can be removed completely within a short period of time.