Advanced selective emitter structures by laser opening technique for industrial mc-Si solar cells

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Advanced selective emitter structures by laser opening technique for industrial mc-Si solar cells

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A laser opening technique is employed as the photolithography process to form selective emitter (SE) structures on multi-crystalline silicon (mc-Si) substrates for the large-area (156×156 mm2) solar-cell industry. The best efficiency of 16.35% is obtained with the developed SE structure after a damage removal process with optimisation of heavily and lightly doped dopants, which yields a gain of 0.88% absolute compared with that of a reference cell. Significantly, the SE mc-Si solar cell without the damage removal process can also reach a gain of 0.48% absolute. The developed SE process has simplicity, reliability, is fast, cost-effective, and could be effectively applied to mass production in industrial applications.

Inspec keywords: solar cells; silicon; elemental semiconductors; photolithography; laser materials processing

Other keywords: lightly doped dopants; photolithography process; industrial mc-Si solar cells; heavily doped dopants; selective emitter structures; multicrystalline silicon substrates; damage removal process; laser opening technique; reference cell; Si

Subjects: Photoelectric conversion; solar cells and arrays; Laser materials processing; Laser materials processing; Solar cells and arrays

References

    1. 1)
      • Abbott, M., Cousins, , Chen, P., , F., Cotter, J.: `Laser-induced defects in crystalline silicon solar cells', Proc. Photovoltaic Specialists Conf., 2005, p. 1241–1244, FL, USA.
    2. 2)
      • M.J. Kerr , J. Schmidt , H. Cuevas . Surface recombination velocity of phosphorus-diffused silicon solar cell emitters passivated with plasma enhanced chemical vapor deposited silicon nitride and thermal silicon oxide. J. Appl. Phys. , 7 , 3821 - 3826
    3. 3)
      • H. Boubekeur , M. Boumaour . Impact of lateral junction on selective emitter solar cell performance. Sol. Energy Mater. Sol. Cells , 7 - 15
    4. 4)
      • P. Engelhart , S. Hermann , T. Neubert , H. Plagwitz , R. Grischke , R. Meyer , U. Klug , A. Schoonderbeek , U. Stute , R. Brendel . Laser ablation of SiO2 for locally contacted Si solar cells with ultra-short pulses. Prog. Photovolt. Res. Appl. , 521 - 527
    5. 5)
      • Jäger, U., Okanovic, M., Hörteis, M., Grohe, A., Preu, R.: `Selective emitter by laser doping from phosphorsilicate glass', Proc. 24th EPVSEC, 2009, Germany, p. 1740–1743.
    6. 6)
      • Bařinka, R., Köhler, I., Stockum, W., Meijer, A., Doll, O., Čech, P., Bařinková, P., Klumpler, A., Hladík, J.: `Advanced selective emitter solar cell process with use of screen-printable etching paste', Proc. 23rd EPVSEC, 2008, Spain, p. 1760–1763.
    7. 7)
      • Y.-T. Cheng , J.-J. Ho , W. Lee , S.-Y. Tsai , Y.-A. Lu , J.-J. Liou , S.-H. Chang , K.L. Wang . Investigation of low-cost surface processing techniques for large-size multicrystalline silicon solar cells. Int. J. Photoenergy , 1 - 6
    8. 8)
      • J. Szlufcik , H.E. Elgamel , M. Ghannam , J. Nijs , R. Met-tens . Simple integral screen printing process for selective emitter polycrystalline silicon solar cells. Appl. Phys. Lett. , 1583 - 1584
http://iet.metastore.ingenta.com/content/journals/10.1049/el.2010.2471
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Correspondence
This article has following corresponding article(s):
An opening for solar cells