Hugendubel.info - Die B2B Online-Buchhandlung 

Merkliste
Die Merkliste ist leer.
Bitte warten - die Druckansicht der Seite wird vorbereitet.
Der Druckdialog öffnet sich, sobald die Seite vollständig geladen wurde.
Sollte die Druckvorschau unvollständig sein, bitte schliessen und "Erneut drucken" wählen.

Atmospheric Pressure Dry Nanotexturing for Crystalline Silicon PERC Solar Cells.

BuchKartoniert, Paperback
187 Seiten
Englisch
Fraunhofer Verlagerschienen am02.02.2023
The state-of-the-art industrial fabrication of silicon solar cells requires significant handling of wet processes and large amounts of wet chemicals. On the other hand, dry etching processes mostly require plasma and vacuum sources as well as use of process gases with high global warming potentials (GWP). In this work, an alternative plasma-free and mask-less dry etching technique of single-sided in nature is investigated. This novel dry etch process uses fluorine (F2), a low to zero GWP gas as etchant, diluted at atmospheric pressure condition to facilitate nanoscale texture of monocrystalline silicon (mono-Si). The etched surface morphology is optimized in terms of surface roughness or enlargement and surface reflection followed by the optimization of phosphorus oxychloride (POCl3) based n-type emitter diffusion and front surface passivation. Such optimization enables improved emitter homogeneity with minimum standard deviation of 3% and front passivation with just silicon nitride (SiNx) by plasma-enhanced chemical vapor deposition. Altogether this optimized nanotexture-emitter combination is integrated into the inline fabrication of the passivated emitter and rear solar cell or PERC-architecture allowing improved energy conversion and increased cell efficiency up to an absolute 0.6%.mehr

Produkt

KlappentextThe state-of-the-art industrial fabrication of silicon solar cells requires significant handling of wet processes and large amounts of wet chemicals. On the other hand, dry etching processes mostly require plasma and vacuum sources as well as use of process gases with high global warming potentials (GWP). In this work, an alternative plasma-free and mask-less dry etching technique of single-sided in nature is investigated. This novel dry etch process uses fluorine (F2), a low to zero GWP gas as etchant, diluted at atmospheric pressure condition to facilitate nanoscale texture of monocrystalline silicon (mono-Si). The etched surface morphology is optimized in terms of surface roughness or enlargement and surface reflection followed by the optimization of phosphorus oxychloride (POCl3) based n-type emitter diffusion and front surface passivation. Such optimization enables improved emitter homogeneity with minimum standard deviation of 3% and front passivation with just silicon nitride (SiNx) by plasma-enhanced chemical vapor deposition. Altogether this optimized nanotexture-emitter combination is integrated into the inline fabrication of the passivated emitter and rear solar cell or PERC-architecture allowing improved energy conversion and increased cell efficiency up to an absolute 0.6%.

Autor