Silicon Powder-Based Wafers for Low-Cost Photovoltaics: Laser Treatments and Nanowire Etching

In this study, laser-treated polycrystalline Si (pc-Si) wafers, fabricated by wire sawing of hot-pressed ingots sintered from Si powder, have been investigated. As-cut wafers and those with high-quality thin Si layers deposited on top of them by e-beam have been subjected to laser irradiation to cla...

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Published in	International Journal of Photoenergy Vol. 2018; no. 2018; pp. 1 - 7
Main Authors	Andrä, G., Ulyashin, A., Dellith, A., Carvalho, P. A., Syvertsen, M., Stokkan, G., Azar, Amin S., Gawlik, A., Plentz, J., Jia, G., Dellith, J.
Format	Journal Article
Language	English
Published	Cairo, Egypt Hindawi Publishing Corporation 01.01.2018 Hindawi John Wiley & Sons, Inc Wiley
Subjects	Applied physics Chemical etching Crystallization Electron beams Etching Hot pressing Irradiation Laser beams Lasers Liquid phases Nanowires Organic chemistry Photonics Photovoltaic cells Powders Quality Raw materials Sawing Silicon Silicon substrates Silicon wafers Sintering (powder metallurgy) Solar cells Solar energy Solar energy industry Texturing Thin films Wafers
Online Access	Get full text
ISSN	1110-662X 1687-529X
DOI	10.1155/2018/6563730

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Abstract	In this study, laser-treated polycrystalline Si (pc-Si) wafers, fabricated by wire sawing of hot-pressed ingots sintered from Si powder, have been investigated. As-cut wafers and those with high-quality thin Si layers deposited on top of them by e-beam have been subjected to laser irradiation to clarify typical trends of structural modifications caused by laser treatments. Moreover, possibility to use laser-treated Si powder-based substrates for fabrication of advanced Si structures has been analysed. It is established that (i) Si powder-based wafers with thicknesses ~180 μm can be fully (from the front to back side) or partly (subsurface region) remelted by a diode laser and grain sizes in laser-treated regions can be increased; (ii) a high-quality top layer can be fabricated by crystallization of an additional a-Si layer deposited by e-beam evaporation on top of the pc-Si; and (iii) silicon nanowires can be formed by metal-assisted wet chemical etching (MAWCE) of polished Si powder-based wafers and as-cut wafers irradiated with medium laser power, while a surface texturing on the as-cut pc-Si wafers occur, and no nanowires can form in the region subject to a liquid phase crystallization (LPC) caused by high-power laser treatments.
AbstractList	In this study, laser-treated polycrystalline Si (pc-Si) wafers, fabricated by wire sawing of hot-pressed ingots sintered from Si powder, have been investigated. As-cut wafers and those with high-quality thin Si layers deposited on top of them by e-beam have been subjected to laser irradiation to clarify typical trends of structural modifications caused by laser treatments. Moreover, possibility to use laser-treated Si powder-based substrates for fabrication of advanced Si structures has been analysed. It is established that (i) Si powder-based wafers with thicknesses ~180 μm can be fully (from the front to back side) or partly (subsurface region) remelted by a diode laser and grain sizes in laser-treated regions can be increased; (ii) a high-quality top layer can be fabricated by crystallization of an additional a-Si layer deposited by e-beam evaporation on top of the pc-Si; and (iii) silicon nanowires can be formed by metal-assisted wet chemical etching (MAWCE) of polished Si powder-based wafers and as-cut wafers irradiated with medium laser power, while a surface texturing on the as-cut pc-Si wafers occur, and no nanowires can form in the region subject to a liquid phase crystallization (LPC) caused by high-power laser treatments. In this study, laser-treated polycrystalline Si (pc-Si) wafers, fabricated by wire sawing of hot-pressed ingots sintered from Si powder, have been investigated. As-cut wafers and those with high-quality thin Si layers deposited on top of them by e-beam have been subjected to laser irradiation to clarify typical trends of structural modifications caused by laser treatments. Moreover, possibility to use laser-treated Si powder-based substrates for fabrication of advanced Si structures has been analysed. It is established that (i) Si powder-based wafers with thicknesses ~180 [micro]m can be fully (from the front to back side) or partly (subsurface region) remelted by a diode laser and grain sizes in laser-treated regions can be increased; (ii) a high-quality top layer can be fabricated by crystallization of an additional a-Si layer deposited by e-beam evaporation on top of the pc-Si; and (iii) silicon nanowires can be formed by metal-assisted wet chemical etching (MAWCE) of polished Si powder-based wafers and as-cut wafers irradiated with medium laser power, while a surface texturing on the as-cut pc-Si wafers occur, and no nanowires can form in the region subject to a liquid phase crystallization (LPC) caused by high-power laser treatments. In this study, laser-treated polycrystalline Si (pc-Si) wafers, fabricated by wire sawing of hot-pressed ingots sintered from Si powder, have been investigated. As-cut wafers and those with high-quality thin Si layers deposited on top of them by e-beam have been subjected to laser irradiation to clarify typical trends of structural modifications caused by laser treatments. Moreover, possibility to use laser-treated Si powder-based substrates for fabrication of advanced Si structures has been analysed. It is established that (i) Si powder-based wafers with thicknesses ~180 μ m can be fully (from the front to back side) or partly (subsurface region) remelted by a diode laser and grain sizes in laser-treated regions can be increased; (ii) a high-quality top layer can be fabricated by crystallization of an additional a-Si layer deposited by e-beam evaporation on top of the pc-Si; and (iii) silicon nanowires can be formed by metal-assisted wet chemical etching (MAWCE) of polished Si powder-based wafers and as-cut wafers irradiated with medium laser power, while a surface texturing on the as-cut pc-Si wafers occur, and no nanowires can form in the region subject to a liquid phase crystallization (LPC) caused by high-power laser treatments.
Audience	Academic
Author	Ulyashin, A. Dellith, J. Plentz, J. Dellith, A. Jia, G. Carvalho, P. A. Syvertsen, M. Stokkan, G. Gawlik, A. Azar, Amin S. Andrä, G.
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Cites_doi	10.1016/j.photonics.2016.01.003 10.1063/1.5012744 10.1038/s41598-017-00988-x 10.1088/0022-3727/49/6/065106 10.1080/10962247.2014.891540 10.1002/pssa.201600882 10.1016/j.solmat.2014.03.040 10.1016/S0927-0248(00)00242-7 10.1016/j.egypro.2012.07.022 10.1364/oe.21.016296 10.1016/j.jcrysgro.2008.04.031 10.1109/JPHOTOV.2013.2289873 10.1016/j.jcrysgro.2012.07.050 10.1016/j.solmat.2011.09.062 10.1002/pssa.201431465 10.1002/pssa.201600859 10.1140/epjb/e20020063 10.1038/nature06181 10.1007/978-3-540-75997-3_237 10.1063/1.1319191 10.1002/pssa.201200531 10.1016/0022-0248(90)90319-G 10.1063/1.1901835
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Copyright	Copyright © 2018 G. Jia et al. COPYRIGHT 2018 John Wiley & Sons, Inc. Copyright © 2018 G. Jia et al. This is an open access article distributed under the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. http://creativecommons.org/licenses/by/4.0
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SubjectTerms	Applied physics Chemical etching Crystallization Electron beams Etching Hot pressing Irradiation Laser beams Lasers Liquid phases Nanowires Organic chemistry Photonics Photovoltaic cells Powders Quality Raw materials Sawing Silicon Silicon substrates Silicon wafers Sintering (powder metallurgy) Solar cells Solar energy Solar energy industry Texturing Thin films Wafers
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Title	Silicon Powder-Based Wafers for Low-Cost Photovoltaics: Laser Treatments and Nanowire Etching
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