@article{HUA2024, 
author = {Licheng HUA and Conghu HU and Jingkang ZHANG and Jin LI and Chenjie GU and Bin HUANG and Guangyong LI and Jianke DU and Wanlin GUO},
title = {Nano-frictional mechano-reinforcing porous nanowires scaffolds},
year = {2024},
journal = {Friction},
volume = {12},
number = {5},
pages = {968-980},
keywords = {triboelectric effect, TiO2NWs scaffolds, nano-deformation, mechano-reinforcing, intelligent artificial biomaterials},
url = {https://www.sciopen.com/article/10.1007/s40544-023-0815-x},
doi = {10.1007/s40544-023-0815-x},
abstract = {Artificial biomaterials with dynamic mechano-responsive behaviors similar to those of biological tissues have been drawing great attention. In this study, we report a TiO2-based nanowire (TiO2NWs) scaffolds, which exhibit dynamic mechano-responsive behaviors varying with the number and amplitude of nano-deformation cycles. It is found that the elastic and adhesive forces in the TiO2NWs scaffolds can increase significantly after multiple cycles of nano-deformation. Further nanofriction experiments show the triboelectric effect of increasing elastic and adhesive forces during the nano-deformation cycles of TiO2NWs scaffolds. These properties allow the TiO2NW scaffolds to be designed and applied as intelligent artificial biomaterials to simulate biological tissues in the future.}
}