Highly Active Ni Nanocatalysts Derived from Metal–Organic Framework (Ni-BDC) Boosted Deoxygenation and Cracking of Fatty Acid Methyl Esters

Abstract: To enhance deoxygenation and cracking of fatty acid methyl esters in jet fuel production, an efficient bifunctional catalyst was synthesized through pyrolyzing Ni-based metal–organic frameworks (Ni-BDC). High-temperature pyrolysis destroyed coordinated Ni–O bonds in the Ni-BDC structure to generate active Ni nanoparticles anchored to carbon, which enhanced Lewis acidity and deoxygenation ability. The strong acidity of catalyst pyrolyzed at 600 °C increased from 0 to 0.835 mmol/g, whereas the ratio of Lewis to … Show more

Electrochemical sensing platform based on two-dimensional Ni-MOF and ionic liquid modified carbon paste electrode for simultaneous determination of levodopa and cabergoline

Electrochemical sensing platform based on two-dimensional Ni-MOF and ionic liquid modified carbon paste electrode for simultaneous determination of levodopa and cabergoline

Attapulgite-based MCM-41 zeolite supported Ni-Nb catalysts for hydrogen production by acetic acid steam reforming

A research on the synthesis process of Zr-MOF derived Ni-based catalysts for CO2 methanation: The role of Ce promoter, method of Ni introduction and calcination condition