Catalyst Design Strategies for Deoxygenation of Vegetable Oils to Produce Second-Generation Biodiesel

Abstract: The second-generation biodiesel generated via deoxygenation of vegetable oils is an ideal green fuel compared to fossil fuels, and it can help address environmental pollution and the energy crisis. During the catalytic deoxygenation process of vegetable oils, the most critical core is the synthesis of catalysts with superior reaction performance. In this work, the catalyst design strategies including the selection of metal active species (non/noble metal and amorphous alloy catalysts), adjustment of coordinati… Show more

“…Among the Review articles in the collection are reviews on: catalyst design for second-generation biofuels (selected as an August 2023 cover), postpolymerization rubber functionalization, the chemical stability of solvents for CO 2 capture, and the solubility of asphaletenes in maltene fraction of crude oils …”

Introducing the I&ECR Virtual Collection of Industrial and Industrially Relevant Research (2022–2023)

“…Among the Review articles in the collection are reviews on: catalyst design for second-generation biofuels (selected as an August 2023 cover), postpolymerization rubber functionalization, the chemical stability of solvents for CO 2 capture, and the solubility of asphaletenes in maltene fraction of crude oils …”

Introducing the I&ECR Virtual Collection of Industrial and Industrially Relevant Research (2022–2023)

Assessment of alcoholic extraction of Jatropha curcas L. oil for potential reactive extraction towards fatty esters

Advanced nanomaterials design and synthesis for accelerating sustainable biofuels production – A review