Journal article
Facile In Situ Assembly of Nanofibers within Three-Dimensional Porous Matrices with Arbitrary Characteristics for Creating Biomimetic Architectures
L Fan, Z Cai, J Zhao, X Wang, JL Li
Nano Letters | AMER CHEMICAL SOC | Published : 2023
Abstract
It is challenging to recapitulate the natural extracellular matrix’s hierarchical nano/microfibrous three-dimensional (3D) structure with multilevel pores, good mechanical and hydrophilic properties, and excellent bioactivity for designing and developing advanced biomimetic materials. This work reports a new facile strategy for the scalable manufacturing of such a 3D architecture. Natural polymers in an aqueous solution are interpenetrated into a 3D microfibrous matrix with arbitrary shapes and property characteristics to self-assemble in situ into a nanofibrous network. The collagen fiber-like hierarchical structure and interconnected multilevel pores are achieved by self-assembly of the fo..
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Grants
Awarded by Deakin University
Funding Acknowledgements
The Australian Research Council is acknowledged for supporting this work through a discovery project (DP210100482) and a World Class Future Fiber Industry Transformation Research Hub (IH140100018). Deakin University is also acknowledged for the special support from the office of the Deputy Vice Chancellor in Research for this work and L.F.'s Research Fellowship.