Worldwide outdoor round robin study of organic photovoltaic devices and modules
Madsen, Morten Vesterager (Technical University of Denmark. Department of Energy Conversion and Storage)
Gevorgyan, Suren A. (Technical University of Denmark. Department of Energy Conversion and Storage)
Pacios, Roberto (IK4-IKERLAN. Microsystems. CIC-Microgune)
Ajuria, Jon (IK4-IKERLAN. Microsystems. CIC-Microgune)
Etxebarria, Ikerne (IK4-IKERLAN. Microsystems. CIC-Microgune)
Kettle, Jeff (Bangor University. School of Electronic Engineering)
Bristow, Noel D. (Bangor University. School of Electronic Engineering)
Neophytou, Marios (Cyprus University of Technology. Molecular Electronics and Photonics Research Unit)
Choulis, Stelios A. (Cyprus University of Technology. Molecular Electronics and Photonics Research Unit)
Roman, Lucimara Stolz (Federal University of Paraná. Physics Department)
Yohannes, Teketel (Addis Ababa University. Chemistry Department)
Cester, Andrea (University of Padova. Department of Information Engineering)
Cheng, Pei (Peking University. Department of Materials Science and Engineering)
Zhan, Xiao Wei (Peking University. Department of Materials Science and Engineering)
Wu, Jiang (Chinese Academy of Sciences. Changchun Institute of Applied Chemistry. State Key Laboratory of Polymer Physics and Chemistry)
Xie, Zhiyuan. (Chinese Academy of Sciences. Changchun Institute of Applied Chemistry. State Key Laboratory of Polymer Physics and Chemistry)
Tu, Wei-chen (National Taiwan University. Institute of Photonics and Optoelectronics. Department of Electrical Engineering)
He, Jr Hau (National Taiwan University. Institute of Photonics and Optoelectronics. Department of Electrical Engineering)
Fell, Christopher J. (CSIRO Energy Technology)
Anderson, Kenrick (CSIRO Energy Technology)
Hermenau, Martin (Technische Universität Dresden. Institut für Angewandte Photophysik)
Bartesaghi, Davide (Dutch Polymer Institute)
Koster, Lambert Jan Anton (Zernike Institute for Advanced Materials)
Machui, Florian (University of Erlangen-Nuremberg. Institute Materials for Electronics and Energy Technology. Department of Material Science)
González Valls, Irene (Institut Català de Nanociència i Nanotecnologia)
Lira-Cantu, Monica (Institut Català de Nanociència i Nanotecnologia)
Khlyabich, Petr P. (University of Southern California. Loker Hydrocarbon Research Institute. Department of Chemistry)
Thompson, Barry C. (University of Southern California. Loker Hydrocarbon Research Institute. Department of Chemistry)
Gupta, Ritu (Jawaharlal Nehru Centre for Advanced Scientific Research. Chemistry and Physics of Materials Unit. Thematic Unit on Nanochemistry)
Shanmugam, Kiruthika (Jawaharlal Nehru Centre for Advanced Scientific Research. Chemistry and Physics of Materials Unit. Thematic Unit on Nanochemistry)
Kulkarni, Girindhar U. (Jawaharlal Nehru Centre for Advanced Scientific Research. Chemistry and Physics of Materials Unit. Thematic Unit on Nanochemistry)
Galagan, Yulia (Holst Centre - Solliance)
Urbina, A. (Universidad Politécnica de Cartagena)
Abad López, José (Universidad Politécnica de Cartagena)
Roesch, Roland (Ilmenau University of Technology. Institute of Physics)
Hoppe, Harald (Ilmenau University of Technology. Institute of Physics)
Morvillo, Pasquale (ENEA)
Bobeico, Eugenia (ENEA)
Panaitescu, Eugen (Northeastern University. Department of Physics)
Menon, Latika (Northeastern University. Department of Physics)
Luo, Qun (Chinese Academy of Sciences. Suzhou Institute of Nanotech and Nanobionics)
Wu, Zhenwu (Chinese Academy of Sciences. Suzhou Institute of Nanotech and Nanobionics)
Ma, ChanQi (Chinese Academy of Sciences. Suzhou Institute of Nanotech and Nanobionics)
Hambarian, Artak (American University of Armenia. Engineering Research Center)
Melikyan, Varuzhan (American University of Armenia. Engineering Research Center)
Hambsch, Mike (University of Queensland. Centre for Organic Photonics and Electronics)
Burn, Paul L. (University of Queensland. Centre for Organic Photonics and Electronics)
Meredith, Paul (University of Queensland. Centre for Organic Photonics and Electronics)
Rath, Thomas (Graz University of Technology. Institute for Chemistry and Technology of Materials)
Dunst, Sebastian (Graz University of Technology. Institute for Chemistry and Technology of Materials)
Trimmel, Gregor (Graz University of Technology. Institute for Chemistry and Technology of Materials)
Bardizza, Giorgio (Institute for Energy and Transport. Joint Research Centre)
Müllejans, Harald (Institute for Energy and Transport. Joint Research Centre)
Goryachev, Andrey E. (Ben-Gurion University of the Negev. J. Blaustein Institutes for Desert Research. Department of Solar Energy and Environmental Physics)
Misra, Ravi K. (Ben-Gurion University of the Negev. J. Blaustein Institutes for Desert Research. Department of Solar Energy and Environmental Physics)
Katz, Eugene A. (Ben-Gurion University of the Negev. J. Blaustein Institutes for Desert Research. Department of Solar Energy and Environmental Physics)
Takagi, Katsuhiko (Kanagawa Academy of Science and Technology)
Magaino, Shinichi (Kanagawa Academy of Science and Technology)
Saito, Hidenori (Kanagawa Academy of Science and Technology)
Aoki, Daisuke (Kanagawa Academy of Science and Technology)
Sommeling, Paul M. (ECN Solar Energy)
Kroon, Jan M. (ECN Solar Energy)
Vangerven, Tim (Hasselt University. Institute for Materials Research)
Manca, Jean (Hasselt University. Institute for Materials Research)
Kesters, Jurgen (Hasselt University. Institute for Materials Research)
Maes, Wouter (Hasselt University. Institute for Materials Research)
Bobkova, Olga D. (M.V. Lomonosov Moscow State University. International Laser Center)
Trukhanov, Vasiliy A. (Lomonosov Moscow State University. International Laser Center)
Paraschuk, Dmitriy Yu. (Lomonosov Moscow State University. International Laser Center)
Castro, Fernando A. (National Physical Laboratory. Materials Division)
Blakesley, James (National Physical Laboratory. Materials Division)
Tuladhar, Sachetan M. (Imperial College London. Department of Physics)
Röhr, Jason Alexander (Imperial College London. Department of Physics)
Nelson, Jenny (Imperial College London. Department of Physics)
Xia, Jiangbin (Wuhan University. College of Chemistry and Molecular Science)
Parlak, Elif Altürk A. (Chemistry Institute. TÜBITAK Marmara Research Center)
Tumay, Tülay Asli (Chemistry Institute. TÜBITAK Marmara Research Center)
Egelhaaf, Hans Joachim (BELECTRIC OPV GmbH)
Tanenbaum, David M. (Pomona College. Department of Physics and Astronomy)
Mae Ferguson, Gretta (Pomona College. Department of Physics and Astronomy)
Carpenter, Robert (Inside2Outside Ltd. Fenstanton)
Chen, Hongzheng (Zhejiang University. Department of Polymer Science and Engineering)
Zimmermann, Birger (Fraunhofer Institute for Solar Energy Systems ISE)
Hirsch, Lionel (Centre national de la recherche scientifique (França). Institut Polytechnique de Bordeaux)
Wantz, Guillaume (Centre national de la recherche scientifique (França). Institut Polytechnique de Bordeaux)
Sun, Ziqi (University of Wollongong. Australian Institute for Innovative Materials. Institute for Superconducting and Electronic Materials)
Singh, Pradeep (Technische Universität Chemnitz. Print and Media Technology)
Bapat, Chaitnya (Technische Universität Chemnitz. Print and Media Technology)
Offermans, Ton (CSEM Muttenz)
Krebs, Frederik C. (Technical University of Denmark. Department of Energy Conversion and Storage)

Fecha:	2014
Resumen:	Accurate characterization and reporting of organic photovoltaic (OPV) device performance remains one of the important challenges in the field. The large spread among the efficiencies of devices with the same structure reported by different groups is significantly caused by different procedures and equipment used during testing. The presented article addresses this issue by offering a new method of device testing using "suitcase sample" approach combined with outdoor testing that limits the diversity of the equipment, and a strict measurement protocol. A round robin outdoor characterization of roll-to-roll coated OPV cells and modules conducted among 46 laboratories worldwide is presented, where the samples and the testing equipment were integrated in a compact suitcase that served both as a sample transportation tool and as a holder and test equipment during testing. In addition, an internet based coordination was used via plasticphotovoltaics. org that allowed fast and efficient communication among participants and provided a controlled reporting format for the results that eased the analysis of the data. The reported deviations among the laboratories were limited to 5% when compared to the Si reference device integrated in the suitcase and were up to 8% when calculated using the local irradiance data. Therefore, this method offers a fast, cheap and efficient tool for sample sharing and testing that allows conducting outdoor measurements of OPV devices in a reproducible manner.
Ayudas:	Ministerio de Ciencia e Innovación MAT2010-21267-C02-02 European Commission 261936
Derechos:	Aquest document està subjecte a una llicència d'ús Creative Commons. Es permet la reproducció total o parcial, la distribució, i la comunicació pública de l'obra, sempre que no sigui amb finalitats comercials, i sempre que es reconegui l'autoria de l'obra original. No es permet la creació d'obres derivades.
Lengua:	Anglès
Documento:	Article ; recerca ; Versió acceptada per publicar
Materia:	OPV ; Round robin ; Interlaboratory study ; Worldwide coverage ; Organic photovoltaic ; Efficiency reporting
Publicado en:	Solar energy materials and solar cells, Vol. 130 (November 2014) , p. 281-290, ISSN 0927-0248

DOI: 10.1016/j.solmat.2014.07.021

Postprint 28 p, 1.2 MB

El registro aparece en las colecciones:
Documentos de investigación > Documentos de los grupos de investigación de la UAB > Centros y grupos de investigación (producción científica) > Ciencias > Institut Català de Nanociència i Nanotecnologia (ICN2)
Artículos > Artículos de investigación
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