Ionic liquid-derived molybdenum oxide encapsulated in 3D ordered meso/macroporous ZrO2 matrix as promising catalyst for the oxidation of dibenzothiophene in fuel oil

“…In Figure and Table , a summary of some Mo-based, POM-based, and h-BN-supported catalysts for catalytic oxidation desulfurization reaction is presented. − It can be observed that the Mo 8 /h-BN catalyst reported in this study exhibits significant catalytic activity under room-temperature conditions. Strikingly, in comparison to other catalysts, the Mo 8 /h-BN catalyst demonstrates clear advantages, as the ODS reaction conditions for other similar catalysts are more stringent.…”

Iso-Polyoxometalate [Mo₈O₂₆]^4– (Mo₈) Supported with Mesoporous Hexagonal Boron Nitride (h-BN): A Green and Efficient Composite Catalyst for Ultradeep Desulfurization of Model Fuel at Room Temperature

“…In Figure and Table , a summary of some Mo-based, POM-based, and h-BN-supported catalysts for catalytic oxidation desulfurization reaction is presented. − It can be observed that the Mo 8 /h-BN catalyst reported in this study exhibits significant catalytic activity under room-temperature conditions. Strikingly, in comparison to other catalysts, the Mo 8 /h-BN catalyst demonstrates clear advantages, as the ODS reaction conditions for other similar catalysts are more stringent.…”

Iso-Polyoxometalate [Mo₈O₂₆]^4– (Mo₈) Supported with Mesoporous Hexagonal Boron Nitride (h-BN): A Green and Efficient Composite Catalyst for Ultradeep Desulfurization of Model Fuel at Room Temperature

“…The sharp increase in fossil fuel use has resulted in severe energy shortages and environmental pollution [1][2][3][4]. One potential solution for mitigating the greenhouse effect is the conversion of CO2, which is advantageous because of its low secondary pollution and high economic feasibility [5][6][7][8][9][10]. To address this issue, researchers have been investigating the use of photocatalytic CO2 reduction over well-designed catalysts that can harness the power of solar energy to recycle CO2 into renewable fuels like CO, CH4, and CH3OH [11][12][13][14][15][16][17][18][19][20].…”

Investigating S-scheme charge transfer pathways in NiS@Ta2O5 hybrid nanofibers for photocatalytic CO2 conversion

Ceramic Foams with Controlled Geometries Through 3D‐Printed Sacrificial Templates