Furans represent one of the most important classes of intermediates in the conversion of non-
edible lignocellulosic biomass into bio-based chemicals and fuels. At present, bio-furan …

Lignocellulosic biomass, ranging from softwood to agriculture and forestry wastes,
represents the most abundant resource for modern biorefinery. In the course of the last …

Selective hydrogenation of aromatic ring represents an essential process for the valorization
of lignin in the chemical industry but achieving this process at low temperature is still a …

Lignin is the main component of lignocellulose and the largest source of aromatic
substances on the earth. Biofuel and bio‐chemicals derived from lignin can reduce the use …

Global temperature has risen> 1° C since the preindustrial era, resulting in well-documented
adverse climate impacts including extreme weather (floods, droughts, storms, and heat …

Using isopropanol as an in situ hydrogen donor, catalytic transfer hydrogenolysis of lignin
into monomeric phenols was studied at mild conditions. The performance of catalysts and …

Aqueous‐phase hydrodeoxygenation (APH) of bioderived feedstocks into useful chemical
building blocks is one the most important processes for biomass conversion. However …

Catalytic transfer hydrogenolysis (CTH) of diphenyl ether (DPE), 2-phenethyl phenyl ether
(PPE), and benzyl phenyl ether (BPE)—as model molecules of α-O-4 and β-O-4 as well as 4 …

Selective hydrogenolysis, the aromatic ether CO bonds under mild conditions, is crucial for
the valorization of lignin. In this context, the effects of H 2 and solvent on the hydrogenolysis …

Cleavage of aromatic ether bonds through hydrogenolysis is one of the most promising
routes for depolymerisation and transformation of lignin into value-added chemicals. Instead …