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Application of modern technique to set the parameters of the monocrystalline solar cell and its structure

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Warianty tytułu
PL
Zastosowanie nowej technologii do poprawy parametrów monokrystalicznej baterii słonecznej
Języki publikacji
EN
Abstrakty
EN
The paper shows that co-firing in the furnace of silicon elements of solar cells from monocrystalline silicon including co-firing of the front electrode to its surface using the conveyor-type IR furnace influences the quality improvement by minimization of the resistance of a joint between the electrode and substrate. The influence of therefore obtained front electrode on electrical properties of solar cells was estimated. In order to manufacture the front electrode commercial silver paste was applied. The photovoltaic cell was performed from monocrystalline silicon p type boron doped in a form of wafers of ~230 μm thickness and the area of 100 cm2.
PL
Artykuł pokazuje że dodatkowe nagrzewanie krzemowych elementów baterii fotowoltaicznej w piecu podczerwieni poprawia jakość baterii przez minimalizację rezystancji połączenia między elektrodami i podłożem.
Rocznik
Strony
24--26
Opis fizyczny
Bibliogr. 14 poz., rys.
Twórcy
  • Silesian University of Technology
  • Silesian University of Technology
autor
  • VŠB-Technical University of Ostrava
autor
  • VŠB-Technical University of Ostrava
autor
  • VŠB-Technical University of Ostrava
Bibliografia
  • [1] Dobrzański L.A., Musztyfaga M., Drygała A., Final manufacturing process of front side metallisation on silicon solar cells using convectional and unconventional techniques, Journal of Mechanical Engineering 59 (2013) 3, 175-182
  • [2] Dobrzański L.A., Musztyfaga M., Giedroć M., Panek P., Investigation of various properties of monocrystalline silicon solar cell, Journal of Achievements in Materials and Manufacturing Engineering, Vol. 55 (2), 2012, 307-315
  • [3] Dobrzański L.A., Musztyfaga M., Drygała A., Panek P., Drabczyk K., Zięba P., Manufacturing photovoltaic solar cells using the screen printing method, First National PV Conference, Krynica - Zdrój 2009, CD-room, 1-9
  • [4] Dobrzański L.A., Musztyfaga M., Drygała A., Panek P.: Investigation of the screen printed contacts of silicon solar cells from Transmissions Line Model, J. of Achievements in Materials and Manufact. Eng., JAMME, vol. 41 1-2, (2010), 57-65
  • [5] Burgelman M., Thin film solar cells by screen printing technology. Proceedings of The Workshop Micro technology and Thermal Problems in Electronics, 1998, 129-135
  • [6] Zięba P., Panek P., Drabczyk K., Lipiński M., Training materials, Dissemination achievements of polish and world photovoltaic in education process on higher level. Photovoltaic laboratory of Institute of Metallurgy an Material Science, Polish Academy of Sciences, Krakow, 2009.
  • [7] Gautero L., Hofmann M., Rentsch J., Lemke A., Mack S., Seiffe J., Nekarda J., Biro D., Wolf A., Bitnar B., Sallese J.M., Preu R., All-screen-printed 120-μm-thin large-area silicon solar cells applying dielectric rear passivation and laser-fired contacts reaching 18% efficiency, Proceedings of Photovoltaic Specialists Conference (PVSC), 34th IEEE, 2009, 1888-1893
  • [8] Klugmann-Radziemska E., Photovoltaic in theory practice, BTC Publishing House, Legionowo, 2010.
  • [9] Clement F., Menkoe M., Hoenig R., Haunschild J., Biro D., Preu R., Lahmer D., Lossen J., Krokoszinski H.J., Pilot-line processing of screen-printed Cz-Si MWT solar cells exceeding 17% efficiency, Proceedings of Photovoltaic Specialists Conference (PVSC), 34th IEEE, 2009, 223-227
  • [10] Hacke P., Gee J. M., A screen-printed interdigitated back contact cells using a boron-source diffusion barrier, Solar Energy Materials and Solar Cells 88 (2005) 119-127
  • [11] Hilali M.M., To B., Rohatgi A., A review and understanding of screen-printed contacts and selective-emitter formation, Conference paper – Workshop on crystalline silicon solar cells and modules, Winter Park, Colorado, 2004, 1-8
  • [12] Mohamend M., Gee J.M., Hacke P., Bow in screen-printed back contact industrial silicon solar cells, Elsevier, Solar Energy and Solar cells 91(13) (2007) 1128-1233
  • [13] Neu W., Kress A., Jooss W., Fath P., Bucher E., Low-cost multicrystalline back-contact silicon solar cells with screen printed metallization, Solar Energy Materials and Solar Cells 74(1-4) (2002) 139-146 pp.
  • [14] Omari H.El., Boyeaux J.P., Laugier A., Screen printed contacts formation by rapid thermal annealing in multicrystaline silicon solar cells, Proc. of 25th PVSC, Washington, 1996, 585-588
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e790f46a-df49-46d6-bbd0-b3ee7d55d909
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