Structural, optical and electrical properties of Ga-doped and (Ga, Co)-codoped ZnO films

Abstract

The Ga-doped and (Ga, Co)-codoped ZnO films were grown on quartz glass substrate by inductively coupled plasma enhanced physical vapor deposition. The effect of Co doping and oxygen pressure on the structural, optical, electrical and magnetic properties of the as-grown films was investigated. The structural characterization revealed that high-quality films were grown with wurtzite structure and c-axis preferred crystalline orientation. The surface morphology was affected by Co doping and oxygen pressure. Room-temperature ferromagnetism was observed in (Ga, Co)-codoped ZnO films. We found that the optical and electrical properties were degraded with Co doping. The Ga-doped ZnO films had an average transmittance of above 88% in the visible wavelength, while (Ga, Co)-codoped ZnO showed a lower average transmittance (∼65%) due to the d–d transitions of Co 2+. The resistivity and Hall mobility of (Ga, Co)-doped ZnO samples were lower than those of Ga-doped ZnO films when grown at the same oxygen pressure.