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<i>In Situ</i> Lignin Adhesion for High-Performance Bamboo Composites

Taotao Meng, Yu Ding, Yu Liu, Lin Xu, Yimin Mao, Julia Gelfond, Shuke Li, Zhihan Li, Paul F. Salipante, Hoon Kim, J. Y. Zhu, Xuejun Pan, Liangbing Hu

2023Nano Letters81 citationsDOI

Abstract

Bamboo composite is an attractive candidate for structural materials in applications such as construction, the automotive industry, and logistics. However, its development has been hindered due to the use of harmful petroleum-derived synthetic adhesives or low-bonding biobased adhesives. Herein, we report a novel bioadhesion strategy based on in situ lignin bonding that can process natural bamboo into a scalable and high-performance composite. In this process, lignin bonds the cellulose fibrils into a strong network via a superstrong adhesive interface formed by hydrogen bonding and nanoscale entanglement. The resulting in situ glued-bamboo (glubam) composite exhibits a record-high shear strength of ∼4.4 MPa and a tensile strength of ∼300 MPa. This in situ lignin adhesion strategy is facile, highly scalable, and cost-effective, suggesting a promising route for fabricating strong and sustainable structural bamboo composites that sequester carbon and reduce our dependence on petrochemical-based adhesives.

Topics & Concepts

BambooMaterials scienceComposite materialAdhesiveComposite numberLigninUltimate tensile strengthAdhesive bondingCelluloseChemistryLayer (electronics)Organic chemistryLignin and Wood ChemistryBamboo properties and applicationsNatural Fiber Reinforced Composites
<i>In Situ</i> Lignin Adhesion for High-Performance Bamboo Composites | Litcius