V. Valdna scite author profile

The deep-level photoluminescence (PL) emission in the 1.1 eV spectral region in p-type CdTe:Cl polycrystalline samples was studied as a function of the excitation laser power and temperature. The relatively broad 1.1 eV PL band has a nonsymmetrical shape which can be easily changed by varying the excitation laser power. Detailed analysis of the line shape shows that the 1.1 eV emission contains two distinct separate bands. These two bands have their zero-phonon peaks located at 1.08 and 1.17 eV, respectively, and they have quite different half-widths. A donor–acceptor (DA) pair model with a deep donor and a deep acceptor with ED and EA both ≳0.5 eV is proposed to explain the observed experimental findings. In this model the 1.08 and 1.17 eV bands are formed as a DA recombination between pairs of the nearest neighbors, and between pairs of the next-nearest neighbors, respectively. It is concluded that the acceptor in these pairs must be an interstitial atom. One possible realization for this kind of a DA pair is the VTe–Tei complex, where VTe is acting as a donor and Tei as an acceptor.

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Effect of CdCl2 annealing treatment on structural and optoelectronic properties of close spaced sublimation CdTe/CdS thin film solar cells vs deposition conditions

Spalatu

Hiie

Mikli

et al. 2015

Thin Solid Films

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Thermal annealing effect on structural and electrical properties of chemical bath-deposited CdS films

et al. 2008

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Conductivity conversion in CdTe layers

Valdna

Buschmann

Mellikov

1996

Journal of Crystal Growth

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V. Valdna

Comparative study of nano-structured CdS thin films prepared by CBD and spray pyrolysis: Annealing effect

Deep center luminescence in p-type CdTe

Effect of CdCl2 annealing treatment on structural and optoelectronic properties of close spaced sublimation CdTe/CdS thin film solar cells vs deposition conditions

Thermal annealing effect on structural and electrical properties of chemical bath-deposited CdS films

Conductivity conversion in CdTe layers

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