Liquid organic hydrogen carriers (LOHCs) are attractive materials for their ability to generate
in situ hydrogen that may be directly used to produce target biofuel precursors, fuels or fuel …

Lignin is produced as a byproduct in cellulosic biorefinery as well in pulp and paper
industries and has the potential for the synthesis of a variety of phenolics chemicals …

Lignin is the most abundant, renewable aromatic resource on earth and holds great
potential for the production of value-added chemicals. The efficient valorization of lignin …

Practical, economical, and high-selectivity methods of lignin bio-oil upgrading could greatly
increase biorefinery productivity and profitability. Herein, we report the efficient production of …

Cleavage of aromatic ether bonds is a key step for lignin valorization, and the development
of novel heterogeneous catalysts with high activity is crucial. Herein, bifunctional …

Lignin, the most prevalent natural source of polyphenols on Earth, offers substantial
possibilities for the conversion into aromatic compounds, which is critical for attaining …

Supercritical methanol depolymerization and hydrodeoxygenation (SCM-DHDO) of maple
wood and lignin extracted with GVL from maple wood, was studied using a copper porous …

The fundamental understanding of the catalytic performance of copper-based catalysts for
lignin hydroconversion is delayed compared with the empirical optimization of the catalyst …

Lignin, with its rich reserves of phenolic compounds, holds great promise as a candidate for
renewable energy and valuable chemical production. However, the complex molecular …

Catalytic hydrogenolysis of lignin to obtain value-added phenolic chemicals is a sustainable
and cost-effective strategy for the efficient valorization of biomass derived wastes. Herein, an …