Fast Deposition of Polycrystalline Silicon Films by Hot-Wire CVD

A. R. Middya; A. Lloret; J. Perrin; J. Huc; J. L. Moncel; J. Y. Parey; G. Rose

doi:10.1557/PROC-377-119

Abstract

Polycrystalline silicon thin films have been deposited at fast growth rates (50 Å/s) by hotwire chemical vapour deposition (HW-CVD) from SiH4/H2 gas mixtures at low substrate temperature (400–500°C). The surface morphology of these films consists of 0.5 – 2.0μm dendritic grains as seen by electron microscopy. The films have a columnar morphology with grains starting from the substrate either on glass or c-Si. Even the 150 nm thick initial layer is polycrystalline. The preferential crystalline orientation of the poly-Si film is apparently not governed by the radiative source but strongly depends on the type and orientation of the substrate. A strong hydrogen dilution (>90%) of silane is essential to obtain poly-Si films with optimal crystalline structure.

References

REFERENCES

1. Werner, J. H., Bergman, R. and Brendel, R., in Advances in Solid state Physics, Vol. 34 edited by Heibig, R. (Vieweg, Braunschweig, Wiesbaden, 1994) p. 115.Google Scholar

2. Carlson, D.E., OPTOELECTRONICS - Device and Technology, 9, 307 (1994).Google Scholar

3. Matsuyama, T., Baba, T., Takahama, T., Wakisaka, K. and Tsuda, S., OPTOELECTRONICS - Device and Technology, 9, 391 (1994).Google Scholar

4. shi, Z., Young, T.L., Zheng, G. F. and Green, M., Solar Energy Materials & Solar Cells 31, 51 (1993).Google Scholar

5. Kondoh, E., ohata, T., Mitomo, T. and K. ohtsuka, Appl. Phys. Lett., 59, 488 (1991).Google Scholar

6. Despande, S.V., Dupuie, J. L. and Gulari, E., Appl. Phys. Lett. 61, 1420 (1992).Google Scholar

7. Despande, S. V., Gulari, E., Haris, S. J. and Weiner, Anita M., 65, 1757 (1994).Google Scholar

8. Matsumura, H., Hosoda, Y. and Furukawa, S. in Amorphous Silicon Technology - 1994, edited by Schiff, E.A., Thomson, M. J., Madan, A., Tanaka, K. and Lecomber, P.G. (Mater. Res. Soc. 336, San Francisco, CA, 1994) pp 37–42.Google Scholar

9. Cifre, J., Bertomeu, J., Puigdollers, J., Polo, M. C., Andreu, J. and Lloret, A., Appl. Phys. A 59, 645 (1994).Google Scholar

10. Klug, H.P. and Alexander, L.E., X-Rav Diffraction Procedures, (Willy, New York, 1974) p. 491.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Finger, F. Carius, R. Hapke, P. Houben, L. Luysberg, M. and Tzolov, M. 1996. Growth and Structure of Microcrystalline Silicon Prepared with Glow Discharge at Various Plasma Excitation Frequencies. MRS Proceedings, Vol. 452, Issue. ,

Schubert, M.B. Wanka, H.N. and Brummack, H. 1996. Optimum front contact and growth conditions for microcrystalline silicon solar cells from hot-wire CVD. p. 1081.

Conde, J. P. Brogueira, P. Castanha, R. and Chu, V. 1996. The Influence of Hydrogen Dilution and Substrate Temperature in Hot-Wire Deposition of Amorphous and Microcrystalline Silicon With Filament Temperatures Between 1900 And 2500 °C. MRS Proceedings, Vol. 420, Issue. ,

Conde, J. P. Brogueira, P. and Chu, V. 1996. Post-Deposition Annealing and Hydrogenation of Hot-Wire Amorphous and Microcrystalline Silicon Films. MRS Proceedings, Vol. 452, Issue. ,

Torres, P. Keppner, H. Meier, J. Kroll, U. Beck, N. and Shah, A. 1997. Fast Deposition of μc-Si:H by Restrictive Dilution and Enhanced HF-Power. physica status solidi (a), Vol. 163, Issue. 2, p. R9.

Tzolov, M. Finger, F. Carius, R. and Hapke, P. 1997. Optical and transport studies on thin microcrystalline silicon films prepared by very high frequency glow discharge for solar cell applications. Journal of Applied Physics, Vol. 81, Issue. 11, p. 7376.

Torres, P. Meier, J. Kroll, U. Beck, N. Keppner, H. and Shah, A. 1997. Fast deposited microcrystalline silicon solar cells. p. 711.

Masuda, Atsushi Iiduka, Ritsuko Heya, Akira Niikura, Chisato and Matsumura, Hideki 1998. Structural and electrical anisotropy and high absorption in poly-Si films prepared by catalytic chemical vapor deposition. Journal of Non-Crystalline Solids, Vol. 227-230, Issue. , p. 987.

Ferreira, I. Águas, H. Mendes, L. Fernandes, F. Fortunato, E. and Martins, R. 1998. Performances of Nano/Amorphous Silicon Films Produced by Hot Wire Plasma Assisted Technique. MRS Proceedings, Vol. 507, Issue. ,

Hapke, P and Finger, F 1998. High deposition rates for microcrystalline silicon with low temperature plasma enhanced chemical vapor deposition processes. Journal of Non-Crystalline Solids, Vol. 227-230, Issue. , p. 861.

Madan, Arun and Morrison, Scott 1998. High deposition rate amorphous and polycrystalline silicon materials using the pulsed plasma and “Hot-Wire” CVD techniques. Solar Energy Materials and Solar Cells, Vol. 55, Issue. 1-2, p. 127.

Bergmann, R. B. Köhler, J. Dassow, R. Zaczek, C. and Werner, J. H. 1998. Nucleation and Growth of Crystalline Silicon Films on Glass for Solar Cells. physica status solidi (a), Vol. 166, Issue. 2, p. 587.

Martins, Rodrigo Ferreira, Isabel Fernandes, Francisco and Fortunato, Elvira 1998. Role of the deposition conditions on the properties presented by nanocrystallite silicon films produced by hot wire. Journal of Non-Crystalline Solids, Vol. 227-230, Issue. , p. 901.

Madan, Arun Morrison, Scott and Kuwahara, Hajime 1999. Progress in high deposition rate amorphous and polycrystalline silicon materials using the pulsed plasma and hot wire CVD deposition techniques. Solar Energy Materials and Solar Cells, Vol. 59, Issue. 1-2, p. 51.

Martins, R Ferreira, I Fernandes, B and Fortunato, E 1999. Performances of a-Si:H films produced by hot wire plasma assisted technique. Vacuum, Vol. 52, Issue. 1-2, p. 203.

Alpuim, P. Chu, V. and Conde, J. P. 1999. Structural and optoelectronic properties of amorphous and microcrystalline silicon deposited at low substrate temperatures by RF and HW CVD. MRS Proceedings, Vol. 557, Issue. ,

Bourée, J.E. 2001. Correlated structural and electronic properties of microcrystalline silicon films deposited at low temperature by catalytic CVD. Thin Solid Films, Vol. 395, Issue. 1-2, p. 157.

Morrison, Scott and Madan, Arun 2001. Deposition of amorphous and microcrystalline silicon using a graphite filament in the hot wire chemical vapor deposition technique. Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films, Vol. 19, Issue. 6, p. 2817.

Brühne, K. Schubert, M.B. Köhler, C. and Werner, J.H. 2001. Nanocrystalline silicon from hot-wire deposition — a photovoltaic material?. Thin Solid Films, Vol. 395, Issue. 1-2, p. 163.

Amanatides, E. Mataras, D. and Rapakoulias, D.E. 2001. Deposition rate optimization in SiH4/H2 PECVD of hydrogenated microcrystalline silicon. Thin Solid Films, Vol. 383, Issue. 1-2, p. 15.

Download full list

Article contents

Fast Deposition of Polycrystalline Silicon Films by Hot-Wire CVD

Abstract

Access options

References

REFERENCES

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Fast Deposition of Polycrystalline Silicon Films by Hot-Wire CVD

Abstract

Access options

References

REFERENCES

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests