Journal
MATERIALS & DESIGN
Volume 215, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.matdes.2022.110486
Keywords
Zinc oxide nanoparticles; Dual-step nanofabrication; Three-dimensional architecture; Hierarchical porosity; Bioinks
Categories
Funding
- Inha University
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In this study, a hierarchical tetramodal-porous three-dimensional architecture was formed by immobilizing ZnO nanoparticles (NPs) on a solid plate. The results suggest that ZnO NPs have potential significance in biomedical applications.
Zinc oxide (ZnO) nanoparticles (NPs) have been underscored as emerging functional materials in biomedical research domains. In the present study, we generated ZnO NPs to form a hierarchical tetramodalporous three-dimensional (3D) architecture by immobilization on a solid plate, which helps enhance mass transfer and reaction rate. ZnO NPs were microfluidically synthesized and further solidified via dual-step nanofabrication. The physicochemical properties of as-synthesized ZnO NPs and the aggregates were characterized. Specifically, intraparticle pores in ZnO NPs displayed interconnected cylindrical channels with bimodal distribution centered at 1.3 and 2.0 nm. Mesopores of ZnO NPs were also analysed at 19.5 nm. ZnO NPs were immobilized on silicon wafer and cellulose paper sheet by a simple and reproducible self-assembly, creating hierarchical tetramodal-porous architecture of intra- and inter-particle pores. In the architecture, macropores were detected at 1.2 mu m on silicon wafer and 134.62 nm on cellulose paper depending on ethanol wetting of NPs at drying temperature for solvent evaporation. From the results, the ZnO NPs can be unprecedented bioinks in biomedical applications including biocompatible battery electrodes, biosensing, nanobiomedicines, medical devices, cosmetics, and tissue engineering. They can also offer further intriguing theoretical and experimental investigations of multi-modality for hierarchical porosity. (c) 2022 The Authors. Published by Elsevier Ltd.
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