Fabricating Bifunctional Co−Al₂O₃@USY Catalyst via In‐Situ Growth Method for Mild Hydrodeoxygenation of Lignin to Naphthenes

Abstract: To enhance the catalytic activity and stability of metal catalysts in the hydrodeoxygenation of lignin derivatives into naphthenes, a bifunctional Co−Al2O3@USY catalyst was fabricated by the reduction of CoAl layered double hydroxide in‐situ grown on the USY zeolite. In the hydrodeoxygenation of guaiacol, a 100.0 % conversion with cyclohexane yield up to 93.6 % was achieved at 180 °C, 3 MPa for 4 h, which should be the hitherto lowest reaction temperature that has been reported over Co‐based metal catalysts. T… Show more

“…The high proportion of Ni 2+ was due to the rapid oxidation of highly active Ni-based catalysts in the air and the formation of passivation layers. 43 In addition, there was a positive shift in the Ni 0 binding energy of Ni/C f as compared to Ni/AC, which signified the enhanced metal−carrier interaction. 44 The acidic site in the catalyst played a critical role in affecting its catalytic activity.…”

“…Combined with the binding energy of Ni 2+ on 2p 3/2 , it can be speculated that Ni 2+ mainly existed in the form of Ni­(OH) 2 . The high proportion of Ni 2+ was due to the rapid oxidation of highly active Ni-based catalysts in the air and the formation of passivation layers . In addition, there was a positive shift in the Ni 0 binding energy of Ni/C f as compared to Ni/AC, which signified the enhanced metal–carrier interaction .…”

Enhancing the Production of Phenolic Monomers from Reductive Catalytic Fractionation of Biomass over Catalyst of Ni–N-Doped Carbon

“…The high proportion of Ni 2+ was due to the rapid oxidation of highly active Ni-based catalysts in the air and the formation of passivation layers. 43 In addition, there was a positive shift in the Ni 0 binding energy of Ni/C f as compared to Ni/AC, which signified the enhanced metal−carrier interaction. 44 The acidic site in the catalyst played a critical role in affecting its catalytic activity.…”

“…Combined with the binding energy of Ni 2+ on 2p 3/2 , it can be speculated that Ni 2+ mainly existed in the form of Ni­(OH) 2 . The high proportion of Ni 2+ was due to the rapid oxidation of highly active Ni-based catalysts in the air and the formation of passivation layers . In addition, there was a positive shift in the Ni 0 binding energy of Ni/C f as compared to Ni/AC, which signified the enhanced metal–carrier interaction .…”

Enhancing the Production of Phenolic Monomers from Reductive Catalytic Fractionation of Biomass over Catalyst of Ni–N-Doped Carbon

Catalytic hydrodeoxygenation of pyrolysis bio-oil to jet fuel: A review

Design of a bifunctional catalyst by alloying Ni with Ru-supported H-beta for selective hydrodeoxygenation of bisphenol A and polycarbonate plastic waste