Figures index

From

Structural and Optical Properties and Relaxation Process of Pulsed Laser Grown and Annealed Mo-doped ZnO Nanostructures

M. Bachir Gaye, C. B. Ndao, E. H. O. Gueye, NM Ndiaye, I Ngom, BD Ngom, B. Lo, P. D. Tall, AC Beye

Physics and Materials Chemistry. 2016, 4(1), 1-5 doi:10.12691/pmc-4-1-1
  • Figure 1a. X-Ray Diffraction pattern of a Mo-doped ZnO thin film deposited under different time of deposition, a) for 30min, b) for 45min, c) for 60min. and d) for 90min
  • Figure 1b. Effect of the annealed at 100°C during 2 hours on the crystalline of the films deposited for different time: (a) for 45 min; (b) for 60 min; (a) for 90 min
  • Figure 2. Effect of the annealed at 100°C during 2 hours on the position of the (002) Bragg peak of the films deposited for different time: (a) for 45 min; (b) for 60 min; (a) for 90 min
  • Figure 3. Optical transmission spectrum in the wavelength range of 200-900 nm for Mo-doped ZnO films prepared at 300°C for different time: (a) for 45 min; (b) for 60 min; (a) for 90 min
  • Figure 4. Effect of the annealed at 100°C during 2 hours on the Optical transmission spectrum in the wavelength range of 200-900 nm for Mo-doped ZnO films prepared at 300°C during 60 minutes
  • Figure 5. Variation of the optical band gap of Mo-doped ZnO film with the deposition time
  • Figure 6. Variation of refractive index of Mo-doped ZnO film with the wavelength
  • Figure 7. Optical transmission spectra in the Infra-Red wavelength range of 500-4000 cm-1 as function of wavelength for Mo-doped ZnO films prepared at 300°C during 60 minutes