Abstract

In this report, optimization of the Zn content in Zn doped indium oxide (IZO) films deposited on plastic substrates at low temperature (20°C) was investigated in relation to variation of the Zn content from 0 to 15.9 at%. In the series of IZO films, 12.2 at% Zn doped indium oxide films, (IZO(12.2)), showed the lowest resistivity (2.9×10-4 Ωcm). The resistivity of IZO(12.2) films deposited on 100-µm-thick polycarbonate foil was approximately one half of that of ITO films (6×10-4 Ωcm) deposited under comparable conditions. IZO(12.2) films exhibited the lowest resistivity, high transmittance of over 85%, a rapid etching rate and good alkaline durability. The reason for rapid etching rate originates from the amorphous structure of IZO films. The thermal property of IZO(12.2) evaluated by a differential scanning calorimeter (DSC) clarified that the phase transformation from amorphous to crystalline began at 350°C, which meant the structure of IZO(12.2) remained amorphous for a practical temperature of the plastic substrate. Optical gap and Hall measurements revealed that the carrier density was decreased after annealing, whereas, the mobility was increased in relation to a trade off with the carrier density.