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Production of High Tensile Strength Bio‐Based Carbon Fibers: Advances, Challenges, and Emerging Applications

Ajay Sharma, Mustafa M. Amin, Md. Abdul Aziz, Muhammad N. Siddiquee

2025Chemistry - An Asian Journal11 citationsDOI

Abstract

The transition to sustainable materials has spurred significant interest in high tensile strength bio-based carbon fibers (CFs), which utilize renewable precursors such as lignin, cellulose, and bio-polyacrylonitrile (bio-PAN). Recent advancements in lignin fractionation and cellulose processing have enabled the production of bio-based CFs with tensile strengths approaching 1.72 and 172 GPa of moduli, narrowing the gap with petroleum-based counterparts. Innovations in stabilization and carbonization, including low-energy microwave techniques, have reduced energy requirements by up to 30%, enhancing economic feasibility. Despite these advances, challenges persist, such as the heterogeneity of lignin precursors, high production costs, and scalability barriers, which currently limit widespread adoption. Future opportunities lie in tailoring precursor molecular structures through genetic engineering and developing hybrid materials that combine bio-based and traditional fibers to optimize performance. With the potential to reduce carbon emissions by 50% and utilize abundant industrial by-products, bio-based CFs represent a pivotal step toward sustainable high-performance materials. These fibers promise transformative impacts across sectors such as supercapacitors, batteries, biosensors, biocatalytic materials and automotive, aligning material innovation with global environmental goals.

Topics & Concepts

Ultimate tensile strengthMaterials scienceCarbon fibersProduction (economics)Composite materialNanotechnologyEconomicsComposite numberMacroeconomicsFiber-reinforced polymer compositesSurface Modification and SuperhydrophobicityAdditive Manufacturing and 3D Printing Technologies
Production of High Tensile Strength Bio‐Based Carbon Fibers: Advances, Challenges, and Emerging Applications | Litcius