Nonstoichiometric Zinc Oxide and Indium-Doped Zinc Oxide: Electrical Conductivity and111In-TDPAC Studies

“…Both transport properties and bond distances are indicative of at least partial n-doping from intercalated protons, but the color is not black as seen when -ZrNCl is doped with similar concentrations of lithium. This behavior is similar to the properties observed in ZnO samples doped with donor impurities in concentrations of less than one atomic percent (15). Zinc oxide when prepared in this way acts as a ''transparent conductor,'' that is, a material which possesses high electrical conductivity while maintaining a band gap in the visible or ultraviolet region of the spectrum.…”

Electronic Band Structure Calculations of theMNX(M=Zr, Ti;X=Cl, Br, I) System and Its Superconducting Member, Li-Dopedβ-ZrNCl

“…Both transport properties and bond distances are indicative of at least partial n-doping from intercalated protons, but the color is not black as seen when -ZrNCl is doped with similar concentrations of lithium. This behavior is similar to the properties observed in ZnO samples doped with donor impurities in concentrations of less than one atomic percent (15). Zinc oxide when prepared in this way acts as a ''transparent conductor,'' that is, a material which possesses high electrical conductivity while maintaining a band gap in the visible or ultraviolet region of the spectrum.…”

Electronic Band Structure Calculations of theMNX(M=Zr, Ti;X=Cl, Br, I) System and Its Superconducting Member, Li-Dopedβ-ZrNCl

“…[2] would occur upon the cooling process. As reported previously (26), Pr O exists only at the grain boundary and triple point of ZnO grains and no open pores are observed after sintering (25). Therefore, upon the cooling process, the reverse reaction of Eq.…”

“…[1] in the sintered body, at least 0.25 mol% of interstitial Zn is required under the assumption that all interstitial Zn s segregated at the interface of PrO V . However, the amount of n in the Zn >L O has been reported to be 0.0003 (26), which is much smaller. Therefore, from the point of mass balance, the explanation using Eq.…”

Redox Reaction of Praseodymium Oxide in the ZnO Sintered Ceramics

“…Characterization has included electrical resistivity as a function of temperature, Hall data at 77 and 298 K, chemical titrations, optical absorption, EPR, NMR, X-ray diffraction, electron microscopy, electron microprobe chemical analyses, perturbed angular correlation, and iron Mbssbauer of Fe doped material. This paper summarizes both our published [1][2][3][4][5] and previously unpublished results.…”

Nonstoichiometry and Doping of Zinc Oxide