How reliable are efficiency measurements of perovskite solar cells? The first inter-comparison, between two accredited and eight non-accredited laboratoriesElectronic supplementary information (ESI) available. See DOI: 10.1039/c7ta05609e
Perovskite materials have generated significant interest from academia and industry as a potential component in next-generation, high-efficiency, low-cost, photovoltaic (PV) devices. The record efficiency reported for perovskite solar cells has risen rapidly, and is now more than 22%. However, due t...
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| Main Authors | , , , , , , , , , , , , , , , , , , |
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| Format | Journal Article |
| Language | English |
| Published |
07.11.2017
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| Abstract | Perovskite materials have generated significant interest from academia and industry as a potential component in next-generation, high-efficiency, low-cost, photovoltaic (PV) devices. The record efficiency reported for perovskite solar cells has risen rapidly, and is now more than 22%. However, due to their complex dynamic behaviour, the
process
of measuring the efficiency of perovskite solar cells appears to be much more complicated than for other technologies. It has long been acknowledged that this is likely to greatly reduce the reliability of reported efficiency measurements, but the quantitative extent to which this occurs has not been determined. To investigate this, we conduct the first major inter-comparison of this PV technology. The participants included two labs accredited for PV performance measurement (CSIRO and NREL) and eight PV research laboratories. We find that the inter-laboratory measurement variability can be almost
ten
times larger for a slowly responding perovskite cell than for a control silicon cell. We show that for such a cell, the choice of measurement method, far more so than measurement hardware, is the single-greatest cause for this undesirably large variability. We provide recommendations for identifying the most appropriate method for a given cell, depending on its stabilisation and degradation behaviour. The results of this study suggest that identifying a consensus technique for accurate and meaningful efficiency measurements of perovskite solar cells will lead to an immediate improvement in reliability. This, in turn, should assist device researchers to correctly evaluate promising new materials and fabrication methods, and further boost the development of this technology.
Towards improved reliability and relevance of indoor measurements of efficiency of perovskite solar cells. |
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| AbstractList | Perovskite materials have generated significant interest from academia and industry as a potential component in next-generation, high-efficiency, low-cost, photovoltaic (PV) devices. The record efficiency reported for perovskite solar cells has risen rapidly, and is now more than 22%. However, due to their complex dynamic behaviour, the
process
of measuring the efficiency of perovskite solar cells appears to be much more complicated than for other technologies. It has long been acknowledged that this is likely to greatly reduce the reliability of reported efficiency measurements, but the quantitative extent to which this occurs has not been determined. To investigate this, we conduct the first major inter-comparison of this PV technology. The participants included two labs accredited for PV performance measurement (CSIRO and NREL) and eight PV research laboratories. We find that the inter-laboratory measurement variability can be almost
ten
times larger for a slowly responding perovskite cell than for a control silicon cell. We show that for such a cell, the choice of measurement method, far more so than measurement hardware, is the single-greatest cause for this undesirably large variability. We provide recommendations for identifying the most appropriate method for a given cell, depending on its stabilisation and degradation behaviour. The results of this study suggest that identifying a consensus technique for accurate and meaningful efficiency measurements of perovskite solar cells will lead to an immediate improvement in reliability. This, in turn, should assist device researchers to correctly evaluate promising new materials and fabrication methods, and further boost the development of this technology.
Towards improved reliability and relevance of indoor measurements of efficiency of perovskite solar cells. |
| Author | Duffy, Noel W Bhattacharjee, Ripon Wang, Hongxia Lin, Qianqian Pascoe, Alex Vak, Doojin Duck, Benjamin C Wilson, Gregory J Moriarty, Tom Burn, Paul L Ho-Baillie, Anita Duong, The Wu, YiLiang Weber, Klaus Anderson, Kenrick F Cheng, Yi-Bing Fell, Christopher J Kim, Jincheol Dunbar, Ricky B |
| AuthorAffiliation | The Australian National University Queensland University of Technology Monash University Australian Centre for Advanced Photovoltaics (ACAP) University of New South Wales Department of Materials Science and Engineering School of Chemistry The University of Queensland Research School of Engineering CSIRO Energy Centre for Organic Photonics & Electronics CSIRO Manufacturing Science and Engineering Faculty School of Photovoltaic and Renewable Energy Engineering Physics and Mechanical Engineering National Renewable Energy Laboratory School of Chemistry and Molecular Biosciences |
| AuthorAffiliation_xml | – name: National Renewable Energy Laboratory – name: University of New South Wales – name: Physics and Mechanical Engineering – name: CSIRO Energy – name: School of Photovoltaic and Renewable Energy Engineering – name: Research School of Engineering – name: Monash University – name: Australian Centre for Advanced Photovoltaics (ACAP) – name: Queensland University of Technology – name: School of Chemistry and Molecular Biosciences – name: The Australian National University – name: Centre for Organic Photonics & Electronics – name: Science and Engineering Faculty – name: CSIRO Manufacturing – name: Department of Materials Science and Engineering – name: The University of Queensland – name: School of Chemistry |
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| References_xml | – issn: 2006 publication-title: Measurement of photovoltaic current-voltage characteristics doi: International Electrotechnical Commission 60904-1 – issn: 1996 end-page: p 1263-1266 publication-title: Proc. 25th IEEE PVSC doi: Osterwald Anevsky Barua Dubard Emery King Metzdorf Nagamine Shimokawa Udayakumar Wang Wititchen Zaaiman Zastrow Zhang – issn: 2012 issue: vol. 115604 end-page: p 496-500 publication-title: Conference Record of the IEEE Photovoltaic Specialists Conference doi: Virtuani Rigamonti Beljean Friesen Pravettoni Chianese – issn: 1986 publication-title: The Results of the 1984/1985 Round Robin Calibration of Reference Solar Cells for the Summit Working Group on Technology Growth and Employment doi: Krebs Ossenbrink Van Steenwinkel – issn: 2005 end-page: p 67-70 publication-title: 31st Photovoltaic Specialists Conference doi: Hishikawa Yanagida Koide – doi: Emery – issn: 2015 end-page: p 1077-1079 publication-title: 31st European Photovoltaic Solar Energy Conference and Exhibition doi: Dunbar Jones Anderson Wilson Fell – issn: 2013 end-page: p 3159-3162 publication-title: 28th European Photovoltaic Solar Energy Conference and Exhibition doi: Hishikawa Shimura Tobita – issn: 1990 end-page: p 952-959 publication-title: Proc. 21st IEEE PVSC doi: Metzdorf Wittchen Heidler Dehne Shimokawa Nagamine Ossenbrink Fornarini Goodbody Davies Emery DeBlasio |
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| Title | How reliable are efficiency measurements of perovskite solar cells? The first inter-comparison, between two accredited and eight non-accredited laboratoriesElectronic supplementary information (ESI) available. See DOI: 10.1039/c7ta05609e |
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