Hydroconversion of Kraft lignin for biofuels production using bifunctional rhenium-molybdenum supported zeolitic imidazolate framework nanocatalyst

“…It was attributed to the presence of so-coking carbonization (MoO x C y H z phase) between active Mo species and the carbon residue, which is also conrmed in our previous studies. 20 On the basis of these results, the extension of reaction time was favorable for lignin depolymerization.…”

“…Bimetallic Mo-based catalysts with specic activities could depend on electronic properties and geometric congurations of integrated bimetallic sites. 19,20 Some transition metal species have been used as the co-catalyst in some Mo-based catalytic system. Recently, Katalin Barta and other coworkers performed that catalytic depolymerization of Kra lignin to alkyl-phenols using various sulde NiW catalysts on different acidic and basic supports.…”

Production of liquid fuels from Kraft lignin over bimetallic Ni–Mo supported on ZIF-derived porous carbon catalyst

“…It was attributed to the presence of so-coking carbonization (MoO x C y H z phase) between active Mo species and the carbon residue, which is also conrmed in our previous studies. 20 On the basis of these results, the extension of reaction time was favorable for lignin depolymerization.…”

“…Bimetallic Mo-based catalysts with specic activities could depend on electronic properties and geometric congurations of integrated bimetallic sites. 19,20 Some transition metal species have been used as the co-catalyst in some Mo-based catalytic system. Recently, Katalin Barta and other coworkers performed that catalytic depolymerization of Kra lignin to alkyl-phenols using various sulde NiW catalysts on different acidic and basic supports.…”

Production of liquid fuels from Kraft lignin over bimetallic Ni–Mo supported on ZIF-derived porous carbon catalyst

Catalytic Conversion of Lignin Model Compound and Kraft Lignin over Reduced Ru/C Catalyst

Potential Applications of Lignin