• DocumentCode
    121686
  • Title

    Optical modelling of the front surface for honeycomb-textured silicon solar cells

  • Author

    Volk, Anne-Kristin ; Glover, William ; Greulich, Johannes ; Gutscher, Simon ; Wolke, Winfried ; Zimmer, Michael ; Rentsch, Jochen ; Reinecke, Holger

  • Author_Institution
    Fraunhofer Inst. for Solar Energy Syst. ISE, Freiburg, Germany
  • fYear
    2014
  • fDate
    8-13 June 2014
  • Firstpage
    1260
  • Lastpage
    1264
  • Abstract
    In this study we assess the reproducibility of the honeycomb texturing process, and we compare experimental values to a simulation. Our results show that the honeycomb-texture can be simulated with the OPAL program. It calculates the losses of any angle of incidence, where the short computation time is achieved by decoupling the ray tracing from the Fresnel equation. We investigate various surface morphologies and their impact on reflection values. The samples were etched at different etching times, whereby the honeycomb geometries were changed. Using our optimal acid etching solution ratio, we are able to fabricate a HC-texture with a reflectivity of R = 19.4 % (ω = 85°). Between the simulation values and those of the measurement, we see a difference of R = 0.3 %abs. This small deviation causes the relatively inaccuracies of the simulation and the measured samples. The focus is to simulate the different honeycomb structures and compare the values with the experimental values.
  • Keywords
    elemental semiconductors; etching; honeycomb structures; light reflection; ray tracing; reflectivity; silicon; solar cells; surface texture; Fresnel equation; HC-texture; OPAL program; Si; angle of incidence; honeycomb structures; honeycomb texturing process; honeycomb-textured silicon solar cells; optical modelling; optimal acid etching solution ratio; ray tracing; reflection values; surface morphologies; Etching; Optical surface waves; Reflection; Reflectivity; Surface morphology; Wavelength measurement; honeycomb textured; modeling; optical losses;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Photovoltaic Specialist Conference (PVSC), 2014 IEEE 40th
  • Conference_Location
    Denver, CO
  • Type

    conf

  • DOI
    10.1109/PVSC.2014.6925144
  • Filename
    6925144