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Bottom-Up Strategy toward Heterocyclic Aramid Nanofibers and Their Application in Strengthening Poly(<i>p</i>-phenylene benzodioxazole) Paper via Constructing a Bilayer Asymmetric Structure

Bo Zhang, Yufu Gao, Shaohua Wu, Chuncheng Li, Yaonan Xiao, Jiajian Liu

2024ACS Applied Polymer Materials11 citationsDOI

Abstract

Polymer nanofibers have shone brilliantly in preparation of functional materials by hierarchical self-assembly. Exploring a facile and efficient method to develop high-performance nanofibers is urgently needed but extremely challenging. Herein, we demonstrate a bottom-up strategy for the preparation of heterocyclic aramid nanofibers (HANFs) by hydrogen bonding and shear field-induced self-assembly. This innovative approach dramatically reduces the preparation time of nanofibers from 2 weeks to 1 h. Moreover, due to the introduction of benzimidazole heterocycles that increase the hydrogen bond density, HANFs exhibit excellent paper-forming properties, such as ultrahigh strength (269.6 MPa), modulus (10.9 GPa), and heat resistance (515.6 °C) and therefore show extraordinary potential for enhancing poly( p -phenylene benzodioxazole) (PBO) paper. Excitingly, the bilayer asymmetric PBO/HANF composite paper constructed here demonstrates tremendously improved performance due to the unique interfacial interlocking. This work is believed to provide guidance for the design and manufacture of high-performance nanofibers and specialty insulating paper.

Topics & Concepts

AramidNanofiberBilayerMaterials sciencePoly(p-phenylene)PhenylenePolymer chemistryPolymer scienceNanotechnologyChemistryComposite materialPolymerMembraneFiberBiochemistrySynthesis and properties of polymersFiber-reinforced polymer compositesAdvanced Sensor and Energy Harvesting Materials
Bottom-Up Strategy toward Heterocyclic Aramid Nanofibers and Their Application in Strengthening Poly(<i>p</i>-phenylene benzodioxazole) Paper via Constructing a Bilayer Asymmetric Structure | Litcius