Voltage transient analysis as a generic tool for solar junction characterization
Surface photovoltage transients on solar junctions have often been associated with carrier lifetime in the literature. However, the carrier decay in a junction is not governed by a first order carrier decay, but resulting from a differential capacitance interacting with a differential conductivity....
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sg-ntu-dr.10356-1394032020-05-19T06:35:18Z Voltage transient analysis as a generic tool for solar junction characterization Prakoso, Ari Bimo Lu, Chenjin Rusli Cortecchia, Daniele Soci, Cesare Berthe, Maxime Deresmes, Dominique Ayachi, Boubakeur Vilcot, Jean-Pierre Diesinger, Heinrich School of Electrical and Electronic Engineering School of Physical and Mathematical Sciences Engineering::Electrical and electronic engineering Voltage Transient Perovskite Solar Cell Surface photovoltage transients on solar junctions have often been associated with carrier lifetime in the literature. However, the carrier decay in a junction is not governed by a first order carrier decay, but resulting from a differential capacitance interacting with a differential conductivity. This phenomenon is well known as the Kane-Swanson formalism in an engineering context where the carrier density transient is measured by photoconductance with a microwave or infrared beam. In this work, we solve the same differential equations numerically to model the carrier decay in the large signal domain extending over five orders of carrier density. Since the surface voltage is linked to the carrier density by a logarithmic relation, we express the carrier decay as surface photovoltage transients. We show how from photovoltage transients, the same information as from photoconductance can be drawn. To demonstrate the method as a generic tool, it is applied to four types of solar cells, two monocrystalline silicon cells, a Perovskite solar cell, a transition metal oxide/silicon hybrid junction, and a CIGS solar cell. Acquiring photovoltage transients by Kelvin force microscopy allows working on partial junctions without top contact, speeding up research of future photovoltaic materials. Furthermore, parameters may be mapped with a better lateral resolution compared to microwave photoconductance. Accepted version 2020-05-19T06:35:18Z 2020-05-19T06:35:18Z 2018 Journal Article Prakoso, A. B., Lu, C., Rusli., Cortecchia, D., Soci, C., Berthe, M., . . ., Diesinger, H. (2018). Voltage transient analysis as a generic tool for solar junction characterization. Journal of Physics D: Applied Physics, 51(34), 345501-. doi:10.1088/1361-6463/aad274 0022-3727 https://hdl.handle.net/10356/139403 10.1088/1361-6463/aad274 2-s2.0-85051634001 34 51 en Journal of Physics D: Applied Physics © 2018 IOP Publishing Ltd. All rights reserved. This is an author-created, un-copyedited version of an article accepted for publication in Journal of Physics D: Applied Physics. IOP Publishing Ltd is not responsible for any errors or omissions in this version of the manuscript or any version derived from it. The definitive publisher authenticated version is available online at https://doi.org/10.1088/1361-6463/aad274 application/pdf |
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Engineering::Electrical and electronic engineering Voltage Transient Perovskite Solar Cell |
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Engineering::Electrical and electronic engineering Voltage Transient Perovskite Solar Cell Prakoso, Ari Bimo Lu, Chenjin Rusli Cortecchia, Daniele Soci, Cesare Berthe, Maxime Deresmes, Dominique Ayachi, Boubakeur Vilcot, Jean-Pierre Diesinger, Heinrich Voltage transient analysis as a generic tool for solar junction characterization |
| description |
Surface photovoltage transients on solar junctions have often been associated with carrier lifetime in the literature. However, the carrier decay in a junction is not governed by a first order carrier decay, but resulting from a differential capacitance interacting with a differential conductivity. This phenomenon is well known as the Kane-Swanson formalism in an engineering context where the carrier density transient is measured by photoconductance with a microwave or infrared beam. In this work, we solve the same differential equations numerically to model the carrier decay in the large signal domain extending over five orders of carrier density. Since the surface voltage is linked to the carrier density by a logarithmic relation, we express the carrier decay as surface photovoltage transients. We show how from photovoltage transients, the same information as from photoconductance can be drawn. To demonstrate the method as a generic tool, it is applied to four types of solar cells, two monocrystalline silicon cells, a Perovskite solar cell, a transition metal oxide/silicon hybrid junction, and a CIGS solar cell. Acquiring photovoltage transients by Kelvin force microscopy allows working on partial junctions without top contact, speeding up research of future photovoltaic materials. Furthermore, parameters may be mapped with a better lateral resolution compared to microwave photoconductance. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Prakoso, Ari Bimo Lu, Chenjin Rusli Cortecchia, Daniele Soci, Cesare Berthe, Maxime Deresmes, Dominique Ayachi, Boubakeur Vilcot, Jean-Pierre Diesinger, Heinrich |
| format |
Article |
| author |
Prakoso, Ari Bimo Lu, Chenjin Rusli Cortecchia, Daniele Soci, Cesare Berthe, Maxime Deresmes, Dominique Ayachi, Boubakeur Vilcot, Jean-Pierre Diesinger, Heinrich |
| author_sort |
Prakoso, Ari Bimo |
| title |
Voltage transient analysis as a generic tool for solar junction characterization |
| title_short |
Voltage transient analysis as a generic tool for solar junction characterization |
| title_full |
Voltage transient analysis as a generic tool for solar junction characterization |
| title_fullStr |
Voltage transient analysis as a generic tool for solar junction characterization |
| title_full_unstemmed |
Voltage transient analysis as a generic tool for solar junction characterization |
| title_sort |
voltage transient analysis as a generic tool for solar junction characterization |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/139403 |
| _version_ |
1681057258736189440 |