The Selective Ethanol and Acetone Sensors for Control Drunken Driving and Diabetic Patient Based on Flame-spray-made Electroactive Metals (Cu, In, Mn)-doped SnO2 Nanoparticles
2.1 To optimize the technique and conditions used in the fabrication of pure and electroactive metals (Cu, In and Mn)-doped SnO2 nanoparticles
2.2 To study the effect of combustion entropy for precursors and solvent which affect to the nanoparticles forming and the processing of pure and electroactive metals (Cu, In, Mn)-doped SnO2 nanoparticles by FSP for use as an ethanol and acetone vapor sensors
2.3 To characterize the nanoparticles and gas sensing properties of pure and electroactive metals (Cu, In and Mn)-doped SnO2 nanoparticles
2.4 To study the effect of dopant (Cu, In, Mn) concentrations on ethanol and acetone gas sensing properties, morphology of sensing films, and their gas sensing properties
2.5 To improve the gas sensing performance in terms of selectivity, sensitivity, response, and recovery times
2.6 To utilize nanomaterials and comparatively apply in control drunken driving and diabetic patient for monitoring applications in terms of the vapor concentrations and sensing behaviors
2.7 To establish a functional nanomaterials for use as wide application in laboratory of international standing through links with domestic and abroad institutions, and foster research publications with high impact factors.
