Centifugually formed film growth

Centrifugally formed film growth is a process used to form thin layers of materials by using a centrifuge.

Centrifugal liquid phase epitaxy is used commercially to make thin layers of silicon, germanium and gallium arsenide.^[1]^[2] The process has been used to create silicon for thin film solar cells^[3]^[4] and far-infrared photodetectors.^[5] Temparature and centrifuge spin rate are used to control layer growth.^[2] Centrifugal LPE has the capability to create dopant concentration gradients while the solution is at constant temperature.^[6]

References[edit]

↑ Capper, Peter; Mauk, Michael (2007). Liquid Phase Epitaxy of Electronic, Optical and Optoelectronic Materials. John Wiley & Sons. pp. 134–135. ISBN 9780470319499. Retrieved 3 October 2017. Search this book on
↑ ^2.0 ^2.1 Farrow, R. F. C.; Parkin, S. S. P.; Dobson, P. J.; Neave, J. H.; Arrott, A. S. (2013). Thin Film Growth Techniques for Low-Dimensional Structures. Springer Science & Business Media. pp. 174–176. ISBN 9781468491456. Retrieved 3 October 2017. Search this book on
↑ Christensen, Arnfinn. "Speedy production of silicon for solar cells". sciencenordic.com. ScienceNordic. Retrieved 3 October 2017.
↑ Luque, A.; Sala, G.; Palz, Willeke; Santos, G. dos; Helm, P. (2012). Tenth E.C. Photovoltaic Solar Energy Conference: Proceedings of the International Conference, held at Lisbon, Portugal, 8–12 April 1991. Springer. p. 694. ISBN 9789401136228. Retrieved 3 October 2017. Search this book on
↑ Katterloher, Reinhard O.; Jakob, Gerd; Konuma, Mitsuharu; Krabbe, Alfred; Haegel, Nancy M.; Samperi, S. A.; Beeman, Jeffrey W.; Haller, Eugene E. (8 February 2002). "Liquid phase epitaxy centrifuge for growth of ultrapure gallium arsenide for far-infrared photoconductors". 4486. International Society for Optics and Photonics: 200–209. doi:10.1117/12.455132.
↑ Pauleau, Y. (2012). Chemical Physics of Thin Film Deposition Processes for Micro- and Nano-Technologies. Springer Science & Business Media. p. 45. ISBN 9789401003537. Retrieved 3 October 2017. Search this book on

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[Capper2007-1] Capper, Peter; Mauk, Michael (2007). Liquid Phase Epitaxy of Electronic, Optical and Optoelectronic Materials. John Wiley & Sons. pp. 134–135. ISBN 9780470319499. Retrieved 3 October 2017. Search this book on

[Farrow2013-2] 2.0 ^2.1 Farrow, R. F. C.; Parkin, S. S. P.; Dobson, P. J.; Neave, J. H.; Arrott, A. S. (2013). Thin Film Growth Techniques for Low-Dimensional Structures. Springer Science & Business Media. pp. 174–176. ISBN 9781468491456. Retrieved 3 October 2017. Search this book on

[Christensen2015-3] Christensen, Arnfinn. "Speedy production of silicon for solar cells". sciencenordic.com. ScienceNordic. Retrieved 3 October 2017.

[Luque2012-4] Luque, A.; Sala, G.; Palz, Willeke; Santos, G. dos; Helm, P. (2012). Tenth E.C. Photovoltaic Solar Energy Conference: Proceedings of the International Conference, held at Lisbon, Portugal, 8–12 April 1991. Springer. p. 694. ISBN 9789401136228. Retrieved 3 October 2017. Search this book on

[Katterloher2002-5] Katterloher, Reinhard O.; Jakob, Gerd; Konuma, Mitsuharu; Krabbe, Alfred; Haegel, Nancy M.; Samperi, S. A.; Beeman, Jeffrey W.; Haller, Eugene E. (8 February 2002). "Liquid phase epitaxy centrifuge for growth of ultrapure gallium arsenide for far-infrared photoconductors". 4486. International Society for Optics and Photonics: 200–209. doi:10.1117/12.455132.

[Pauleau2012-6] Pauleau, Y. (2012). Chemical Physics of Thin Film Deposition Processes for Micro- and Nano-Technologies. Springer Science & Business Media. p. 45. ISBN 9789401003537. Retrieved 3 October 2017. Search this book on

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Centifugually formed film growth

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