Title :
Low-temperature epitaxial Si absorber layers grown by electron-cyclotron resonance chemical vapor deposition
Author :
Rau, B. ; Selle, B. ; Knipper, U. ; Brehme, S. ; Siber, I. ; Stöger, M. ; Schattschneider, P. ; Gall, S. ; Fuhs, W.
Author_Institution :
Hahn-Meitner-Inst. Berlin, Germany
Abstract :
We studied the homo-epitaxial growth of Si layers on crystalline Si(100) substrates in the temperature range from 420/spl deg/C to 510/spl deg/C using electron-cyclotron resonance chemical vapour deposition (ECRCVD). Above 480/spl deg/C the films grew epitaxially. Films deposited with a growth rate of 15 nm/min at 510/spl deg/C are of excellent crystallographic quality up to layer thicknesses as large as 2.23 /spl mu/m. With increasing thickness local highly defective regions were formed in the epitaxial films. They are cone-shaped and consist of thin polycrystalline needles only. An abrupt breakdown of epitaxial growth as usually reported in literature was not observed. The non-intentionally doped films are n-type independently on the substrate temperature. The film/substrate interfaces were analyzed by I-V measurements.
Keywords :
Hall effect; Rutherford backscattering; carrier density; chemical vapour deposition; cyclotron resonance; electron density; elemental semiconductors; p-n junctions; scanning electron microscopy; semiconductor epitaxial layers; semiconductor growth; silicon; transmission electron microscopy; 420 to 510 degC; ECR; Hall effect; Rutherford backscattering; Si-Si; carrier density; current-voltage measurements; defective regions; electron cyclotron resonance chemical vapour deposition; electron density; epitaxial films; film deposition; film-substrate interfaces; growth rate; homo epitaxial growth; low temperature epitaxial silicon absorber layers; nonintentionally doped films; p-n junctions; polycrystalline needles; scanning electron microscopy; transmission electron microscopy;
Conference_Titel :
Photovoltaic Energy Conversion, 2003. Proceedings of 3rd World Conference on
Conference_Location :
Osaka, Japan
Print_ISBN :
4-9901816-0-3
