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Theory of Graded-Bandgap Thin-Film Solar Cells

Om Theory of Graded-Bandgap Thin-Film Solar Cells

Thin-film solar cells are cheap and easy to manufacture but require improvements as their efficiencies are low compared to that of the commercially dominant crystalline-silicon solar cells. An optoelectronic model is formulated and implemented along with the differential evolution algorithm to assess the efficacy of grading the bandgap of the CIGS, CZTSSe, and AlGaAs photon-absorbing layer for optimizing the power-conversion efficiency of thin-film CIGS, CZTSSe, and AlGaAs solar cells, respectively, in the two-terminal single-junction format. Each thin-film solar cell is modeled as a photonic device as well as an electronic device. Solar cells with two (or more) photon-absorbing layers can also be handled using the optolelectronic model, whose results will stimulate experimental techniques for bandgap grading to enable ubiquitous small-scale harnessing of solar energy.

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  • Språk:
  • Engelska
  • ISBN:
  • 9783031008962
  • Format:
  • Häftad
  • Sidor:
  • 144
  • Utgiven:
  • 24. augusti 2021
  • Mått:
  • 191x9x235 mm.
  • Vikt:
  • 284 g.
  Fri leverans
Leveranstid: 2-4 veckor
Förväntad leverans: 28. januari 2025
Förlängd ångerrätt till 31. januari 2025
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Beskrivning av Theory of Graded-Bandgap Thin-Film Solar Cells

Thin-film solar cells are cheap and easy to manufacture but require improvements as their efficiencies are low compared to that of the commercially dominant crystalline-silicon solar cells. An optoelectronic model is formulated and implemented along with the differential evolution algorithm to assess the efficacy of grading the bandgap of the CIGS, CZTSSe, and AlGaAs photon-absorbing layer for optimizing the power-conversion efficiency of thin-film CIGS, CZTSSe, and AlGaAs solar cells, respectively, in the two-terminal single-junction format. Each thin-film solar cell is modeled as a photonic device as well as an electronic device. Solar cells with two (or more) photon-absorbing layers can also be handled using the optolelectronic model, whose results will stimulate experimental techniques for bandgap grading to enable ubiquitous small-scale harnessing of solar energy.

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