Structural Properties of SbxSey Thin Films Obtained by CMBD for Solar Cells
T. M. RazykovPhysical–Technical Institute SPA Physics–Sun, Academy of Sciences of the Republic or Uzbekistan, 100084, Tashkent, UzbekistanК. M. KuchkarovPhysical–Technical Institute SPA Physics–Sun, Academy of Sciences of the Republic or Uzbekistan, 100084, Tashkent, UzbekistanМ. С. ТивановBelarusian State University, 220030, Minsk, BelarusB. A. ErgashevPhysical–Technical Institute SPA Physics–Sun, Academy of Sciences of the Republic or Uzbekistan, 100084, Tashkent, UzbekistanР. ХуррамовPhysical–Technical Institute SPA Physics–Sun, Academy of Sciences of the Republic or Uzbekistan, 100084, Tashkent, UzbekistanD. Z. IsakovPhysical–Technical Institute SPA Physics–Sun, Academy of Sciences of the Republic or Uzbekistan, 100084, Tashkent, UzbekistanA. OlimovPhysical–Technical Institute SPA Physics–Sun, Academy of Sciences of the Republic or Uzbekistan, 100084, Tashkent, UzbekistanD. S. BaikoBelarusian State University, 220030, Minsk, BelarusN. I. PolyakBelarusian State University, 220030, Minsk, BelarusO.V. KorolikBelarusian State University, 220030, Minsk, BelarusS. D. SharipovBelarusian State University, 220030, Minsk, Belarus
ABI
Annotatsiya
SbxSey films were obtained by chemical molecular beam deposition (CMBD) on soda-lime glass substrates. Sb and Se were used as sources, their evaporation temperature was 950–1000°C (Sb) and 500°C (Se), the substrate temperature was maintained at about 500°C. Using scanning electron microscopy, X-ray diffraction analysis, and Raman scattering, the effect of the Sb/Se composition ratio on the structure of the synthesized films was studied. It was revealed that the films have a crystalline (orthorhombic) structure with compactly located crystallites having the form of rods with an average size: l = 4–8 µm (length) and d = 2–3 µm (diameter).
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