Developing fibrillated cellulose as a sustainable technological material

Abstract

Cellulose is the most abundant biopolymer on Earth, found in trees, waste from agricultural crops and other biomass. The fibres that comprise cellulose can be broken down into building blocks, known as fibrillated cellulose, of varying, controllable dimensions that extend to the nanoscale. Fibrillated cellulose is harvested from renewable resources, so its sustainability potential combined with its other functional properties (mechanical, optical, thermal and fluidic, for example) gives this nanomaterial unique technological appeal. Here we explore the use of fibrillated cellulose in the fabrication of materials ranging from composites and macrofibres, to thin films, porous membranes and gels. We discuss research directions for the practical exploitation of these structures and the remaining challenges to overcome before fibrillated cellulose materials can reach their full potential. Finally, we highlight some key issues towards successful manufacturing scale-up of this family of materials.

Keywords

CelluloseMaterials scienceNanocelluloseRenewable resourceBiopolymerCellulosic ethanolBiomass (ecology)SustainabilityCellulose fiberPolymer scienceRenewable energyEngineeringComposite materialChemical engineeringPolymer

MeSH Terms

Biocompatible MaterialsBiotechnologyCelluloseGelsHumansNanostructuresPorositySustainable Development

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Publication Info

Year: 2021
Type: review
Volume: 590
Issue: 7844
Pages: 47-56
Citations: 1432
Access: Closed

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APA Style

                            
                                
                                    Tian Li, 
                                
                                    Chaoji Chen, 
                                
                                    Alexandra H. Brozena
                                
                                et al.
                            
                            (2021). 
                            Developing fibrillated cellulose as a sustainable technological material. 
                            Nature
                            , 590
                            (7844)
                            , 47-56.
                            https://doi.org/10.1038/s41586-020-03167-7
                        

Identifiers

DOI: 10.1038/s41586-020-03167-7
PMID: 33536649

Data Quality

Data completeness: 86%