Development and optimization of scanning spreading resistance microscopy for measuring the two-dimensional carrier profile in solar cell structures
Within this work, we have explored the use of scanning spreading resistance microscopy (SSRM) on advanced solar cell structures. Three main topics, corresponding to three important needs, were targeted. First, we have analyzed the highly doped regions at the frontside of solar cells. The influence o...
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| Published in | Physica status solidi. A, Applications and materials science Vol. 208; no. 3; pp. 596 - 599 |
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| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin
WILEY-VCH Verlag
01.03.2011
WILEY‐VCH Verlag Wiley-VCH |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1862-6300 1862-6319 |
| DOI | 10.1002/pssa.201000306 |
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| Abstract | Within this work, we have explored the use of scanning spreading resistance microscopy (SSRM) on advanced solar cell structures. Three main topics, corresponding to three important needs, were targeted. First, we have analyzed the highly doped regions at the frontside of solar cells. The influence of the surface roughness, hindering the use of other techniques (e.g., secondary ion mass spectrometry, SIMS), and the phosphorus diffusion along grains for multicrystalline silicon (mc‐Si) have been studied quantitatively as they may affect substantially the electrical properties of solar cells.
Secondly, we have explored local backside contacts manufactured using new techniques like laser ablation followed by dopant diffusion. Having a better knowledge of the two‐dimensional (2D)‐dopant distribution is a subject of growing interest. Finally, we have studied electrical properties of grain‐boundary and intragrain defects in polycrystalline silicon (pc‐Si) layers as they may play a major role in the electrical performances of the solar cells. |
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| AbstractList | Within this work, we have explored the use of scanning spreading resistance microscopy (SSRM) on advanced solar cell structures. Three main topics, corresponding to three important needs, were targeted. First, we have analyzed the highly doped regions at the frontside of solar cells. The influence of the surface roughness, hindering the use of other techniques (e.g., secondary ion mass spectrometry, SIMS), and the phosphorus diffusion along grains for multicrystalline silicon (mc‐Si) have been studied quantitatively as they may affect substantially the electrical properties of solar cells.
Secondly, we have explored local backside contacts manufactured using new techniques like laser ablation followed by dopant diffusion. Having a better knowledge of the two‐dimensional (2D)‐dopant distribution is a subject of growing interest. Finally, we have studied electrical properties of grain‐boundary and intragrain defects in polycrystalline silicon (pc‐Si) layers as they may play a major role in the electrical performances of the solar cells. |
| Author | Seidel, Felix Lorenz, Anne Horzel, Joerg De Castro, Angel Uruena Van Gestel, Dries John, Joachim Vandervorst, Wilfried Hantschel, Thomas Schulze, Andreas Eyben, Pierre |
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| Cites_doi | 10.1063/1.3117838 10.1116/1.589810 10.1116/1.2805250 10.1109/WCPEC.1994.519955 10.1088/0268-1242/12/11/018 10.1116/1.1424280 10.1002/pssa.200982212 |
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| Keywords | Impurity distribution Cell structure Electrical properties Doping Polycrystal Roughness Cellular material Phosphorus Secondary ion mass spectrometry Pulsed laser deposition Crystal defect Optimization Grain boundary Solar cell Secondary ion mass spectra Impurity diffusion Laser ablation technique Silicon Diffusion SSRM |
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| References | G. Galvagnoy, Semicond. Sci. Technol. 12, 1433- 1437 (1997). P. Eyben, M. Xu, N. Duhayon, T. Clarysse, S. Callewaert, and W. Vandervorst, J. Vac. Sci. Technol. B 20( 1), 471- 478 (2002). J. C. C. Tsai and R. D. Plummer, in: Quick Reference Manual, edited by W.E. Beadle ( Wiley, New York, 1985). T. Hantschel, C. Demeulemeester, P. Eyben, V. Schulz, O. Richard, H. Bender, and W. Vandervorst, Phys. Status Solidi A 206( 9), 2077- 2081 (2009). D. Van Gestel et al., J. Appl. Phys. 105, 114507 (2009). P. De Wolf, T. Clarysse, W. Vandervorst, L. Hellemans, Ph. Niedermann, and W. Hanni, J. Vac. Sci. Technol. B 16, 355 (1998). P. Eyben, J. Mody, S. Vemula, and W. Vandervorst, J. Vac. Sci. Technol. B 26, 338- 341 (2008). 1998; 16 2009 2008; 26 2007 1985 2005 1994 2009; 206 2002; 20 2010 2009; 105 1997; 12 e_1_2_5_14_2 e_1_2_5_13_2 e_1_2_5_9_2 Eyben P. (e_1_2_5_3_2) 2007 e_1_2_5_8_2 e_1_2_5_7_2 e_1_2_5_10_2 e_1_2_5_6_2 e_1_2_5_5_2 e_1_2_5_12_2 e_1_2_5_4_2 Tsai J. C. C. (e_1_2_5_11_2) 1985 e_1_2_5_2_2 |
| References_xml | – reference: P. Eyben, M. Xu, N. Duhayon, T. Clarysse, S. Callewaert, and W. Vandervorst, J. Vac. Sci. Technol. B 20( 1), 471- 478 (2002). – reference: T. Hantschel, C. Demeulemeester, P. Eyben, V. Schulz, O. Richard, H. Bender, and W. Vandervorst, Phys. Status Solidi A 206( 9), 2077- 2081 (2009). – reference: D. Van Gestel et al., J. Appl. Phys. 105, 114507 (2009). – reference: P. Eyben, J. Mody, S. Vemula, and W. Vandervorst, J. Vac. Sci. Technol. B 26, 338- 341 (2008). – reference: P. De Wolf, T. Clarysse, W. Vandervorst, L. Hellemans, Ph. Niedermann, and W. Hanni, J. Vac. Sci. Technol. B 16, 355 (1998). – reference: G. Galvagnoy, Semicond. Sci. Technol. 12, 1433- 1437 (1997). – reference: J. C. C. Tsai and R. D. Plummer, in: Quick Reference Manual, edited by W.E. Beadle ( Wiley, New York, 1985). – volume: 12 start-page: 1433 year: 1997 end-page: 1437 publication-title: Semicond. Sci. Technol. – year: 1985 – start-page: 1242 year: 1994 end-page: 1249 – volume: 16 start-page: 355 year: 1998 publication-title: J. Vac. Sci. Technol. B – year: 2009 – year: 2005 – volume: 105 start-page: 114507 year: 2009 publication-title: J. Appl. Phys. – volume: 206 start-page: 2077 issue: 9 year: 2009 end-page: 2081 publication-title: Phys. Status Solidi A – start-page: 1882 year: 2010 end-page: 1891 – volume: 26 start-page: 338 year: 2008 end-page: 341 publication-title: J. Vac. Sci. Technol. B – year: 2007 – volume: 20 start-page: 471 issue: 1 year: 2002 end-page: 478 publication-title: J. Vac. Sci. Technol. B – ident: e_1_2_5_13_2 doi: 10.1063/1.3117838 – ident: e_1_2_5_12_2 – volume-title: SPM: Electrical and Electromechanical Phenomena at the Nanoscale year: 2007 ident: e_1_2_5_3_2 – ident: e_1_2_5_2_2 doi: 10.1116/1.589810 – ident: e_1_2_5_14_2 doi: 10.1116/1.2805250 – ident: e_1_2_5_9_2 doi: 10.1109/WCPEC.1994.519955 – ident: e_1_2_5_8_2 – ident: e_1_2_5_6_2 – ident: e_1_2_5_10_2 doi: 10.1088/0268-1242/12/11/018 – ident: e_1_2_5_5_2 doi: 10.1116/1.1424280 – ident: e_1_2_5_7_2 – volume-title: Quick Reference Manual year: 1985 ident: e_1_2_5_11_2 – ident: e_1_2_5_4_2 doi: 10.1002/pssa.200982212 |
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| SubjectTerms | Applied sciences Condensed matter: structure, mechanical and thermal properties Cross-disciplinary physics: materials science; rheology Diffusion in solids Diffusion of impurities Electronics Energy Exact sciences and technology Laser deposition Materials Materials science Methods of deposition of films and coatings; film growth and epitaxy metrology microscopy Natural energy Photovoltaic conversion Physics solar cell Solar cells. Photoelectrochemical cells Solar energy Transport properties of condensed matter (nonelectronic) two-dimensional |
| Title | Development and optimization of scanning spreading resistance microscopy for measuring the two-dimensional carrier profile in solar cell structures |
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