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Lignin Waste Valorization in the Bioeconomy Era: Toward Sustainable Innovation and Climate Resilience

Alfonso Trezza, Linta Mahboob, Anna Visibelli, Michela Geminiani, Annalisa Santucci

2025Applied Sciences19 citationsDOIOpen Access PDF

Abstract

Lignin, the most abundant renewable aromatic biopolymer on Earth, is rapidly emerging as a powerful enabler of next-generation sustainable technologies. This review shifts the focus to the latest industrial breakthroughs that exploit lignin’s multifunctional properties across energy, agriculture, healthcare, and environmental sectors. Lignin-derived carbon materials are offering scalable, low-cost alternatives to critical raw materials in batteries and supercapacitors. In agriculture, lignin-based biostimulants and controlled-release fertilizers support resilient, low-impact food systems. Cosmetic and pharmaceutical industries are leveraging lignin’s antioxidant, UV-protective, and antimicrobial properties to create bio-based, clean-label products. In water purification, lignin-based adsorbents are enabling efficient and biodegradable solutions for persistent pollutants. These technological leaps are not merely incremental, they represent a paradigm shift toward a materials economy powered by renewable carbon. Backed by global sustainability roadmaps like the European Green Deal and China’s 14th Five-Year Plan, lignin is moving from industrial residue to strategic asset, driven by unprecedented investment and cross-sector collaboration. Breakthroughs in lignin upgrading, smart formulation, and application-driven design are dismantling long-standing barriers to scale, performance, and standardization. As showcased in this review, lignin is no longer just a promising biopolymer, it is a catalytic force accelerating the global transition toward circularity, climate resilience, and green industrial transformation. The future of sustainable innovation is lignin-enabled.

Topics & Concepts

SustainabilityBusinessExploitRenewable energyCircular economyClimate changeNatural resource economicsEnablingGreenhouse gasClimate change mitigationResilience (materials science)BiorefinerySustainable developmentRaw materialBiofuelLEAPSInvestment (military)AgricultureBioplasticGlobal warmingEnvironmental degradationEnvironmental scienceCarbon footprintRenewable resourceWaste managementEmerging technologiesSustainable productionEnvironmental economicsEngineeringIndustrialisationLigninSustainable designAutomotive industryEnvironmental planningLignin and Wood ChemistryEnzyme-mediated dye degradationBiochemical and biochemical processes
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