In a new study published on Scientific Reports, Mohammad-Hossein Beigi and a research team in the departments of Engineering and Applied Science and Cellular Biotechnology in Canada and Iran described a new method to form biocompatible biomaterials for bone tissue engineering. They engineered web-like, three-dimensional (3-D) Titania nanofibrous coatings using high intensity laser-induced reverse transfer (HILIRT). The team first demonstrated the mechanism of ablation and Titanium (Ti) deposition on glass substrates using multiple picosecond laser pulses in ambient air to compare theoretical predictions with experimental results. They examined the performance of glass samples developed by coating titania nanofibrous structures through varied laser pulse durations, using methods such as scanning electron microscopy (SEM).
Click here for original story, Plasma ionization-based 3-D titania nanofiber-like webs to enhance bioreactivity and osteoconductivity of biomaterials
Source: Phys.org