Effects of dopants on the deep bulk levels in the ZnO-Bi2O3-MnO2 system

Abstract

Small amounts of In₂O₃ and Li₂O were added to the ZnO‐Bi₂O₃‐MnO₂ ternary primitive varistor system. Considering Schottky disorder and Frenkel disorder, oxygen vacancy or zinc interstitial density was expected to decrease with In₂O₃ doping and to increase with Li₂O doping. Using admittance spectroscopy, a 0.32‐eV electron trap, which is suggested to be an ionized oxygen vacancy, was observed regardless of the doping conditions. Changes in the peak height, for the 0.32‐eV trap, in the admittance spectra are correlated with In₂O₃ and Li₂O doping. Doping with In₂O₃ reduces the conductance contribution due to the trap, while doping with Li₂O enhances it. However, calculations show that small amounts of dopants, less than 100 ppm, do not greatly influence the trap density. The trap density remains within experimental error approximately 1.0×10¹⁷ cm⁻³.