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      Antisite traps and metastable defects in Cu(In,Ga)Se2 thin-film solar cells studied by screened-exchange hybrid density functional theory

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          Abstract

          Electronic structure calculations within screened-exchange hybrid density functional theory show that Cu(In,Ga) antisites in both CuInSe2 and CuGaSe2 are localized hole traps, which can be attributed to the experimentally observed N2 level. In contrast, GaCu antisites and their defect complexes with copper vacancies exhibit an electron trap level, which can limit the open-circuit voltage and efficiency in Ga-rich Cu(In,Ga)Se2 alloys. Low-temperature photoluminescence measurements in CuGaSe2 thin-film solar cells show a free-to-bound transition at an energy of 1.48 eV, in very good agreement with the calculated transition energy for the GaCu antisite. Since the intrinsic DX center does not exhibit a pinning level within the band gap of CuInSe2, metastable DX behaviour can only be expected for GaCu antisites.

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          Defect physics of theCuInSe2chalcopyrite semiconductor

          Su-Huai Wei, H Katayama-Yoshida, Alex Zunger (1998)
          Article 0 comments Cited 231 times – based on 0 reviews     Review now
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            n-type doping ofCuInSe2andCuGaSe2

            Clas Persson, Yu-Jun Zhao, Stephan Lany (2005)
            Article 0 comments Cited 137 times – based on 0 reviews     Review now
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              Intrinsic\(DX\)Centers in Ternary Chalcopyrite Semiconductors

              Stephan Lany, Alex Zunger (2008)
              In III-V and II-VI semiconductors, certain nominally electron-donating impurities do not release electrons but instead form deep electron-traps known as "DX centers." While in these compounds, such traps occur only after the introduction of foreign impurity atoms, we find from first-principles calculations that in ternary I-III-VI2 chalcopyrites like CuInSe2 and CuGaSe2, DX-like centers can develop without the presence of any extrinsic impurities. These intrinsic DX centers are suggested as a cause of the difficulties to maintain high efficiencies in CuInSe2-based thin-film solar-cells when the band gap is increased by addition of Ga.
              Article 0 comments Cited 37 times – based on 0 reviews     Review now
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                ArXiv ID:: 1205.2556

                ScienceOpen disciplines: Condensed matter
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                ScienceOpen disciplines: Condensed matter

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