Original Structural and Electrical Investigation for a new BG-F-6 vitreous bio-ceramic as Humidity Sensors

Two biomaterial types have been the focus of sensor applications: Fluorosilicate bioactive Glass $\text{BG}-\mathrm{F}_{6}$ crude and compact. Of the two, $\text{BG}-\mathrm{F}_{6}$ compact material show the greater mechanical strength, and electrical behaviour provoke greater humidity sensing capacity. Thus, the glassy discs show great potential for deployment in a new generation of biosensors and environment requires. The aim of this paper is to develop a material that combines an interesting mechanical strength, monophasic stability with potential thermic resistance and great electrical capacity. By returning to its high temperature synthesis protocol, makes this fluorosilicate glass an attractive material for sensors development topic and environmental precautions.