• Gonçalves, Gonçalo
• Matteis, Fabio De
• Ullah, Sana
• Santa, Ana
• Davoli, Ivan
• Martins, Rodrigo
• Branquinho, Rita

Abstract

<p>IZO thin films with In:Zn ratio of 7:3 and 3:7 were prepared by solution combustion synthesis of metal oxide nitrates and influence of post-deposition rapid thermal annealing (RTA) was studied. Individual 0.5 M indium and zinc oxide precursor solutions were mixed in 7:3 and 3:7 compositions. XRD analysis showed IZO 7:3 composition has only cubic bixbyite In₂O₃ structure while IZO 3:7 composition showed both hexagonal wurtzite ZnO and cubic bixbyite In₂O₃ phases. SEM and AFM analysis showed low roughness for IZO 7:3, rms &lt; 2 nm whereas for IZO 3:7 composition surface roughness was &gt;22 nm due to phase segregation. UV/ViS/NIR analysis showed transparency range desirable of transparent conductors for both compositions. Post-deposition RTA treatment resulted in high conductivity single phase IZO 7:3 films. Segregation of phases enhanced carrier scattering resulting in decreased mobility for IZO 3:7 films. Best performing IZO films demonstrated low resistivity 7.66 ×10^-3 Ohm cm and high carrier concentration 5.09 ×10¹⁹/cm³ after 10 min RTA at 600 °C. These results demonstrate combustion synthesis and RTA are successful for development of films with enhanced conductivity and transparency through low cost vacuum-free synthesis reducing indium content for applications in photovoltaic devices, flat panel displays and transparent electronics.</p>

Topics

• Deposition
• surface
• resistivity
• phase
• mobility
• scanning electron microscopy
• x-ray diffraction
• thin film
• atomic force microscopy
• zinc
• combustion
• annealing
• Indium