4.6 Article

Comparison of Sb, As, and P doping in Cd-rich CdTe single crystals: Doping properties, persistent photoconductivity, and long-term stability

Journal

APPLIED PHYSICS LETTERS
Volume 116, Issue 13, Pages -

Publisher

AMER INST PHYSICS
DOI: 10.1063/5.0004883

Keywords

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Funding

  1. JSPS
  2. National Science Foundation [1711885]
  3. Directorate For Engineering
  4. Div Of Electrical, Commun & Cyber Sys [1711885] Funding Source: National Science Foundation

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Acceptor doping CdTe with group-V elements is promising for increasing the power conversion efficiency of CdTe photovoltaic devices via an increased hole concentration and open circuit voltage (V-OC). In past work, we have investigated doping with As in Cd-rich CdTe single crystals grown using the Cd-solvent traveling heater method we have developed. In this study, we compare the doping parameters and stability of hole concentration in the light and dark for P, As, and Sb dopants in crystals cooled very slowly from the growth temperature to approximate thermal equilibrium. In contrast to older reports of a high acceptor ionization energy for Sb, our temperature dependent Hall effect experiments reveal an acceptor ionization energy slightly above 90meV for Sb doping in the mid 10(16) cm(-3) range. Room temperature hole concentrations above 10(16) cm(-3) are observed for P, As, and Sb with each dopant type exhibiting only small changes in hole concentrations over 2 years' time at room temperature. Crystals doped with P, As, or Sb exhibit increased conductivity after above-gap illumination, which decays over periods of minutes to hours depending on temperature. Analysis of the photoconductivity decay reveals a barrier attributed to hole capture of 190-280meV for the series P, As, and Sb.

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