An economic CVD technique for pure SnO2 thin films deposition: Temperature effects

A modified new method of CVD for formation of pure layers of tin oxide films was developed. This method is very simple and inexpensive and produces films with good electrical properties. The effect of substrate temperature on the sheet resistance, resistivity, mobility, carrier concentration and transparency of the films has been studied. The best sheet resistance obtained at substrate temperature of 500 A degrees C was about 27 Omega/cm(2). X-ray diffraction showed that the structure of deposited films was polycrystalline with a grain size between 150-300 . The preferred orientation was (211) for films deposited at substrate temperature of about 500 A degrees C. FESEM micrographs revealed that substrate temperature is an important factor for increasing grain size and modifies electrical parameters. UV-visible measurement showed reduction of transparency and bandgap of the layers with increasing substrate temperature.