• 
  Rusu, M.; Bär, M.; Fuertes Marrón, D.; Lehmann, S.; Schedel-Niedrig, Th.; Lux-Steiner, M.Ch.: Transport properties of CuGaSe2-based thin-film solar cells as a function of absorber composition. Thin Solid Films 519 (2011), p. 7304-7307

10.1016/j.tsf.2011.01.185

Abstract:
The transport properties of thin-film solar cells based on wide-gap CuGaSe2 absorbers have been investigated as a function of the bulk [Ga]/[Cu] ratio ranging from 1.01 to 1.33. We find that (i) the recombination processes in devices prepared from absorbers with a composition close to stoichiometry ([Ga]/[Cu] = 1.01) are strongly tunnelling assisted resulting in low recombination activation energies (Ea) of approx. 0.95 eV in the dark and 1.36 eV under illumination. (ii) With an increasing [Ga]/[Cu] ratio, the transport mechanism changes to be dominated by thermally activated Shockley-Read-Hall recombination with similar Ea values of approx. 1.52 - 1.57 eV for bulk [Ga]/[Cu] ratios of 1.12 - 1.33. The dominant recombination processes take place at the interface between CdS buffer and CuGaSe2 absorber independently from the absorber composition. The increase of Ea with the [Ga]/[Cu] ratio correlates with the open circuit voltage and explains the better performance of corresponding solar cells.