Biocompatible Cubic Boron Nitride: A Noncytotoxic Ultrahard Material

摘要

Cubic boron nitride (c-BN) has an ultrahardness and a large bandgap energy like diamond. In the last 30 years, most of the attention has been directed towards the mechanical and electronic applications ofc-BN, while its biological potential has been overlooked. The authors report in vitro biocompatibility of high-qualityc-BN films prepared by plasma-enhanced chemical vapor deposition using the chemistry of fluorine.c-BN films become superhydrophilic when chemical-treated in hydrogen and nitrogen plasmas with or without the impact of low-energy ions due to a marked increase in polar part of the surface free energy by removal of the fluorine atoms terminatingc-BN surfaces. Satisfactory proliferation and differentiation of osteoblastic cells comparable with a control sample and a superhydrophilic nanocrystalline diamond film, and the formation of mineral deposits by biomineralization are confirmed on the superhydrophilicc-BN films with negative values of zeta potential. The results demonstrate a high potential ofc-BN as a noncytotoxic ultrahard coating material for biological and biomedical applications.