Significant progress in lignins valorization and development of high-performance
sustainable materials have been achieved in recent years. Reports related to lignin …

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 excessive use of petroleum-based non-biodegradable plastic products has resulted in
severe environmental pollution and ecological problems, which has stimulated the …

Lignin is a readily available yet heavily underutilised resource due to its severe degree of
variability related to the plant source and to the processes employed for its isolation. Being …

Biomass-derived materials are green alternatives to synthetic plastics and other fossil-based
materials. Lignin, an aromatic plant polymer, is one of the most appealing renewable …

The use of active packaging technologies and biopolymeric materials are among the
emerging trends for implementation of sustainability in the food packaging industry. Thus …

Kraft lignin, a by‐product from the production of pulp, is currently incinerated in the recovery
boiler during the chemical recovery cycle, generating valuable bioenergy and recycling …

The tissue engineering scaffolds requires efficient combination of materials, appropriate
method of preparation, and precise characterization of final product. In this study, the optimal …

The purpose of this study was to prepare low-viscosity lignin-based polyurethane (LPU)
resins for the modification of ramie (Boehmeria nivea (L.) Gaudich) fiber via impregnation to …

The electrospun scaffolds could mimic the highly hierarchical structure of extracellular matrix
(ECM). Modern tissue engineering focuses on the properties of these microstructures …