Fully decarbonizing global industry is essential to achieving climate stabilization, and
reaching net zero greenhouse gas emissions by 2050–2070 is necessary to limit global …

Heterogeneity and rigidity of lignocellulose causing resistance to its deconstruction have
provided technical and economic challenges in the current biomass conversion processes …

Producing monomeric phenols from lignin biopolymer depolymerization in a detachable and
efficient manner comes under the spotlight on the fullest utilization of sustainable …

The profitability and sustainability of future biorefineries are dependent on efficient feedstock
use. Therefore, it is essential to valorize lignin when using wood. We have developed an …

The implementation of biorefineries based on lignocellulosic materials as an alternative to
fossil-based refineries calls for efficient methods for fractionation and recovery of the …

The advances in process engineering, nanotechnology, and materials science gradually
enable the potential applications of biomass in novel energy storage technologies such as …

Lignin, as the most abundant aromatic biopolymer in nature, has attracted great attention
due to the complexity and richness of its functional groups for value‐added applications. The …

The waste-to-wealth concept aims to promote a future sustainable lifestyle where waste
valorization is seen not only for its intrinsic benefits to the environment but also to develop …

Biomass waste comes from a wide range of sources, such as forest, agricultural, algae
wastes, as well as other relevant industrial by-products. It is an important alternative energy …

Polymers are ubiquitously present in our daily life because they can meet a wide range of
needs and fields of applications. This success, based on an irresponsible linear …