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Low-Temperature Hydrothermal Synthesis of Novel 3D Hybrid Nanostructures on Titanium Surface with Mechano-bactericidal Performance

Lidan Zhao, Tianqing Liu, Xiangqin Li, Qianqian Cui, Qiqi Wu, Xin Wang, Kedong Song, Dan Ge

2021ACS Biomaterials Science & Engineering26 citationsDOI

Abstract

Titanium is extensively employed in modern medicines as orthopedic and dental implants, but implant failures frequently occur because of bacterial infections. Herein, three types of 3D nanostructured titanium surfaces with nanowire clusters (NWC), nanowire/sheet clusters (NW/SC) and nanosheet clusters (NSC), were fabricated using the low-temperature hydrothermal synthesis under normal pressure, and assessed for the sterilization against two common human pathogens. The results show that the NWC and NSC surfaces merely display good bactericidal activity against Escherichia coli, whereas the NW/SC surface represents optimal bactericidal efficiency against both Escherichia coli (98.6 ± 1.23%) and Staphylococcus aureus (69.82 ± 2.79%). That is attributed to the hybrid geometric nanostructure of NW/SC, i.e., the pyramidal structures of ∼23 nm in tip diameter formed with tall clustered wires, and the sharper sheets of ∼8 nm in thickness in-between these nanopyramids. This nanostructure displays a unique mechano-bactericidal performance via the synergistic effect of capturing the bacteria cells and penetrating the cell membrane. This study proves that the low-temperature hydrothermal synthesized hybrid mechano-bactericidal titanium surfaces provide a promising solution for the construction of bactericidal biomedical implants.

Topics & Concepts

NanostructureTitaniumMaterials scienceNanowireHydrothermal circulationNanosheetEscherichia coliNanotechnologyMembraneHydrothermal synthesisChemical engineeringBiocompatibilityChemistryMetallurgyBiochemistryGeneEngineeringBacterial biofilms and quorum sensingBone Tissue Engineering MaterialsBacteriophages and microbial interactions