Microcrystalline and "micromorph" solar cells and modules: status and potential

Author

Shah, Arvind V. ; Bailat, Julien ; Vallat-Sauvain, Evelyne ; Vanecek, Milan ; Meier, Johannes ; Fay, Sylvie ; Feitknecht, Luc ; Pola, Ivano ; Terrazzoni, Vanessa ; Ballif, Christophe

Author_Institution

Inst. de Microtechnique, Neuchatel Univ., Switzerland

fYear

2005

Firstpage

1353

Lastpage

1358

Abstract

Motivation and scope for introduction of microcrystalline silicon within thin-film silicon solar cells is described. Requirements for intrinsic layers in microcrystalline silicon solar cells are listed. The concept of a μc-Si:H/a-Si:H or "micromorph" tandem solar cell is presented, together with factors limiting efficiency increase, and above all J_sc. To increase J_sc, it is necessary to increase light trapping and reduce optical absorption in contact and reflector layers. Costs associated with module production are strongly influenced by the investment for plasma deposition. To reduce costs, use of professional production equipment and deposition rate increase are critical elements. For the latter, PE-CVD with higher deposition pressures has so far been the most successful method.

Keywords

crystal microstructure; elemental semiconductors; hydrogen; plasma CVD; radiation pressure; silicon; solar cells; thin film devices; PE-CVD; Si:H; contact layers; light trapping; microcrystalline silicon solar cells; micromorph solar cells; optical absorption; plasma deposition; reflector layers; thin-film silicon solar cells; Absorption; Amorphous silicon; Chemical vapor deposition; Crystallization; Grain boundaries; Hydrogen; Photovoltaic cells; Plasma chemistry; Pollution measurement; Production;

fLanguage

English

Publisher

ieee

Conference_Titel

Photovoltaic Specialists Conference, 2005. Conference Record of the Thirty-first IEEE

ISSN

0160-8371

Print_ISBN

0-7803-8707-4

Type

conf

DOI

10.1109/PVSC.2005.1488393

Filename

1488393