Lignin, an Eco-friendly Biocomponent for a Sustainable Future

Latika Bhatia *

Department of Microbiology & Bioinformatics, Atal Bihari Vajpayee University, Bilaspur, Chhattisgarh, India.

*Author to whom correspondence should be addressed.


Abstract

Lignin is the second most abundant terrestrial biopolymer and the largest natural reservoir of renewable aromatic carbon. Historically discarded or combusted as a low-value by-product of pulping and biorefining operations, lignin is increasingly recognised as a versatile feedstock capable of displacing petroleum-derived aromatics across materials, energy and environmental sectors. This review critically synthesises recent literature on lignin structure, extraction, valorisation and application, with particular attention to biomedical nanomaterials, food packaging, adhesives and polyurethane systems, carbon fibres, energy storage devices, water remediation, agriculture and biofuel production. The structural heterogeneity of lignin, arising from variable monolignol composition and interunit linkages, is examined as both the principal barrier to, and the source of functional richness underpinning, its valorisation. Extraction technologies, including kraft, sulfite, soda, organosolv and emerging ionic-liquid and deep-eutectic-solvent processes, are compared in terms of purity, yield, structural preservation and environmental burden. Applications are organised according to technology readiness and market relevance, and five summary tables consolidate quantitative findings on lignin sources, extraction performance, material applications, energy-related uses and environmental functions. The review further considers policy instruments and circular-bioeconomy frameworks that influence commercial uptake. Persistent obstacles, notably structural variability between feedstocks, incomplete standardisation of technical lignin grades and unresolved life-cycle trade-offs, are discussed alongside promising directions in catalytic depolymerisation and lignin-first biorefinery architectures. The evidence indicates that lignin valorisation is central to the transition towards a resource-efficient, low-carbon bioeconomy, provided that fractionation, standardisation and techno-economic barriers are addressed through coordinated research and policy action.

Keywords: Lignin, biorefinery, circular bioeconomy, biopolymer valorisation, renewable materials, sustainable packaging, lignin nanoparticles, biofuel


How to Cite

Bhatia, Latika. 2026. “Lignin, an Eco-Friendly Biocomponent for a Sustainable Future”. Asian Journal of Research in Agriculture and Forestry 12 (3):167-78. https://doi.org/10.9734/ajraf/2026/v12i3521.

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