In the search of alternative resources to make commodity chemicals and transportation fuels
for a low carbon future, lignocellulosic biomass with over 180-billion-ton annual production …

Bioconversion of bioresources/wastes (eg, lignin, chemical pulping byproducts) represents a
promising approach for developing a bioeconomy to help address growing energy and …

Lignin is by far the most abundant natural renewable aromatic polymer in nature, and its
reserves are second only to cellulose. In addition to the rich carbon content, the structure of …

Electrochemical recycling of spent lithium-ion batteries (sLIBs) is potentially cost-effective
and consumes fewer chemicals than traditional metallurgical processes. However, severe …

Bio-based chemicals synthesized by lignin offer a promising pathway of bioenergy utilization
to achieve the target of the Paris Agreement with< 2° C of climate warming temperature …

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 …

It has been known that the yield of lignin monomers during lignin depolymerization is limited
by the irreversible condensations of lignin in the fractionation and/or depolymerization …

Lignin is extensively studied to be used as an energy storage material due to its intrinsic
catechin structure. However, the limited content of catechin groups in industrial lignin is not …

Most phenolic resins are synthesized with non-renewable petroleum-based phenol and
formaldehyde, which have adverse effects on the environment and human health. To …

The efficient use of lignocellulosic biomass resources is of great significance to solve
environmental pollution and energy crisis. Therefore, the understanding of the reactivity of …