• DocumentCode
    3513066
  • Title

    Modelling isotextured silicon solar cells and modules

  • Author

    Baker-Finch, Simeon C. ; McIntosh, Keith R. ; Inns, Daniel ; Terry, Mason L.

  • Author_Institution
    Australian Nat. Univ., Canberra, ACT, Australia
  • fYear
    2012
  • fDate
    3-8 June 2012
  • Abstract
    We describe a one dimensional model for isotextured silicon solar cells. Combined optical and recombination analyses provide the tools required to predict the performance of isotextured cells; the utility of these tools is demonstrated by comparison with industrially fabricated screen-printed cells with full area back surface field. In this particular demonstration, inaccurate predetermination of front surface recombination reduces the predictive capability of the model. We measure the angular distribution of light from isotextured surfaces, showing that, when encapsulated with typical pottants beneath glass, current generation in isotextured cells approaches 99% of that achieved in random pyramid textured equivalents. This represents a reduction in the performance difference between the two textures when operating in air (not encapsulated); in this case, current generation in an isotextured device is 96% of that calculated beneath random pyramids. We calculate the short circuit current of photovoltaic modules comprising cast-mono silicon solar cells; when encapsulated beneath glass and EVA, isotexturing, rather than alkaline etching, maximises photogeneration in cells with less than 84% monocrystalline (<;100>;) surface area.
  • Keywords
    short-circuit currents; silicon; solar cells; surface morphology; surface recombination; alkaline etching; angular distribution; back surface field; cast-mono silicon solar cells; current generation; encapsulated beneath glass; isotextured silicon solar cells; monocrystalline surface area; photovoltaic modules; random pyramid textured equivalents; recombination analysis; screen printed cells; short circuit current; surface recombination; Morphology; Optical reflection; Photovoltaic cells; Silicon; Surface morphology; Surface texture; Surface treatment; charge carrier lifetime; geometrical optics; photovoltaic cells; silicon; surface morphology;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Photovoltaic Specialists Conference (PVSC), 2012 38th IEEE
  • Conference_Location
    Austin, TX
  • ISSN
    0160-8371
  • Print_ISBN
    978-1-4673-0064-3
  • Type

    conf

  • DOI
    10.1109/PVSC.2012.6317599
  • Filename
    6317599