Worldwide outdoor round robin study of organic photovoltaic devices and modules

Morten V. Madsen; Suren A. Gevorgyan; R. Pacios; J. Ajuria; I. Etxebarria; Jeff Kettle; Noel D. Bristow; Marios Neophytou; Stelios A. Choulis; Lucimara Stolz Roman; Teketel Yohannes; Andrea Cester; Pei Cheng; Xiaowei Zhan; Jiang Wu; Zhiyuan Xie; Wei Chen Tu; Jr Hau He; Christopher J. Fell; Kenrick Anderson; Martin Hermenau; Davide Bartesaghi; L. Jan Anton Koster; Florian Machui; Irene González-Valls; Monica Lira-Cantu; Petr P. Khlyabich; Barry C. Thompson; Ritu Gupta; Kiruthika Shanmugam; Giridhar U. Kulkarni; Yulia Galagan; Antonio Urbina; Jose Abad; Roland Roesch; Harald Hoppe; P. Morvillo; E. Bobeico; Eugen Panaitescu; Latika Menon; Qun Luo; Zhenwu Wu; Changqi Ma; Artak Hambarian; Varuzhan Melikyan; M. Hambsch; Paul L. Burn; Paul Meredith; Thomas Rath; Sebastian Dunst; Gregor Trimmel; Giorgio Bardizza; Harald Müllejans; A. E. Goryachev; Ravi K. Misra; Eugene A. Katz; Katsuhiko Takagi; Shinichi Magaino; Hidenori Saito; Daisuke Aoki; Paul M. Sommeling; Jan M. Kroon; Tim Vangerven; Jean Manca; Jurgen Kesters; Wouter Maes; Olga D. Bobkova; Vasily A. Trukhanov; Dmitry Yu Paraschuk; Fernando A. Castro; James Blakesley; Sachetan M. Tuladhar; Jason Alexander Röhr; Jenny Nelson; Jiangbin Xia; Elif Alturk Parlak; Tülay Asli Tumay; Hans Joachim Egelhaaf; David M. Tanenbaum; Gretta Mae Ferguson; Robert Carpenter; Hongzheng Chen; Birger Zimmermann; Lionel Hirsch; Guillaume Wantz; Ziqi Sun; Pradeep Singh; Chaitnya Bapat; Ton Offermans; Frederik C. Krebs

doi:10.1016/j.solmat.2014.07.021

Worldwide outdoor round robin study of organic photovoltaic devices and modules

Morten V. Madsen, Suren A. Gevorgyan, R. Pacios, J. Ajuria, I. Etxebarria, Jeff Kettle, Noel D. Bristow, Marios Neophytou, Stelios A. Choulis, Lucimara Stolz Roman, Teketel Yohannes, Andrea Cester, Pei Cheng, Xiaowei Zhan, Jiang Wu, Zhiyuan Xie, Wei Chen Tu, Jr Hau He, Christopher J. Fell, Kenrick AndersonMartin Hermenau, Davide Bartesaghi, L. Jan Anton Koster, Florian Machui, Irene González-Valls, Monica Lira-Cantu, Petr P. Khlyabich, Barry C. Thompson, Ritu Gupta, Kiruthika Shanmugam, Giridhar U. Kulkarni, Yulia Galagan, Antonio Urbina, Jose Abad, Roland Roesch, Harald Hoppe, P. Morvillo, E. Bobeico, Eugen Panaitescu, Latika Menon, Qun Luo, Zhenwu Wu, Changqi Ma, Artak Hambarian, Varuzhan Melikyan, M. Hambsch, Paul L. Burn, Paul Meredith, Thomas Rath, Sebastian Dunst, Gregor Trimmel, Giorgio Bardizza, Harald Müllejans, A. E. Goryachev, Ravi K. Misra, Eugene A. Katz, Katsuhiko Takagi, Shinichi Magaino, Hidenori Saito, Daisuke Aoki, Paul M. Sommeling, Jan M. Kroon, Tim Vangerven, Jean Manca, Jurgen Kesters, Wouter Maes, Olga D. Bobkova, Vasily A. Trukhanov, Dmitry Yu Paraschuk, Fernando A. Castro, James Blakesley, Sachetan M. Tuladhar, Jason Alexander Röhr, Jenny Nelson, Jiangbin Xia, Elif Alturk Parlak, Tülay Asli Tumay, Hans Joachim Egelhaaf, David M. Tanenbaum, Gretta Mae Ferguson, Robert Carpenter, Hongzheng Chen, Birger Zimmermann, Lionel Hirsch, Guillaume Wantz, Ziqi Sun, Pradeep Singh, Chaitnya Bapat, Ton Offermans, Frederik C. Krebs

The Swiss Institute for Dryland Environmental and Energy Research

Ben-Gurion University of the Negev

Research output: Contribution to journal › Article › peer-review

Abstract

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.

Original language	American English
Pages (from-to)	281-290
Number of pages	10
Journal	Solar Energy Materials and Solar Cells
Volume	130
DOIs	https://doi.org/10.1016/j.solmat.2014.07.021
State	Published - 1 Jan 2014

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Efficiency reporting
Interlaboratory study
OPV
Organic photovoltaic
Round robin
Worldwide coverage

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Renewable Energy, Sustainability and the Environment
Surfaces, Coatings and Films

Access to Document

10.1016/j.solmat.2014.07.021

Cite this

Madsen, M. V., Gevorgyan, S. A., Pacios, R., Ajuria, J., Etxebarria, I., Kettle, J., Bristow, N. D., Neophytou, M., Choulis, S. A., Stolz Roman, L., Yohannes, T., Cester, A., Cheng, P., Zhan, X., Wu, J., Xie, Z., Tu, W. C., He, J. H., Fell, C. J., ... Krebs, F. C. (2014). Worldwide outdoor round robin study of organic photovoltaic devices and modules. Solar Energy Materials and Solar Cells, 130, 281-290. https://doi.org/10.1016/j.solmat.2014.07.021

@article{0e6423cfb2db418281020faefe1156be,

title = "Worldwide outdoor round robin study of organic photovoltaic devices and modules",

abstract = "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.",

keywords = "Efficiency reporting, Interlaboratory study, OPV, Organic photovoltaic, Round robin, Worldwide coverage",

author = "Madsen, \{Morten V.\} and Gevorgyan, \{Suren A.\} and R. Pacios and J. Ajuria and I. Etxebarria and Jeff Kettle and Bristow, \{Noel D.\} and Marios Neophytou and Choulis, \{Stelios A.\} and \{Stolz Roman\}, Lucimara and Teketel Yohannes and Andrea Cester and Pei Cheng and Xiaowei Zhan and Jiang Wu and Zhiyuan Xie and Tu, \{Wei Chen\} and He, \{Jr Hau\} and Fell, \{Christopher J.\} and Kenrick Anderson and Martin Hermenau and Davide Bartesaghi and \{Jan Anton Koster\}, L. and Florian Machui and Irene Gonz{\'a}lez-Valls and Monica Lira-Cantu and Khlyabich, \{Petr P.\} and Thompson, \{Barry C.\} and Ritu Gupta and Kiruthika Shanmugam and Kulkarni, \{Giridhar U.\} and Yulia Galagan and Antonio Urbina and Jose Abad and Roland Roesch and Harald Hoppe and P. Morvillo and E. Bobeico and Eugen Panaitescu and Latika Menon and Qun Luo and Zhenwu Wu and Changqi Ma and Artak Hambarian and Varuzhan Melikyan and M. Hambsch and Burn, \{Paul L.\} and Paul Meredith and Thomas Rath and Sebastian Dunst and Gregor Trimmel and Giorgio Bardizza and Harald M{\"u}llejans and Goryachev, \{A. E.\} and Misra, \{Ravi K.\} and Katz, \{Eugene A.\} and Katsuhiko Takagi and Shinichi Magaino and Hidenori Saito and Daisuke Aoki and Sommeling, \{Paul M.\} and Kroon, \{Jan M.\} and Tim Vangerven and Jean Manca and Jurgen Kesters and Wouter Maes and Bobkova, \{Olga D.\} and Trukhanov, \{Vasily A.\} and Paraschuk, \{Dmitry Yu\} and Castro, \{Fernando A.\} and James Blakesley and Tuladhar, \{Sachetan M.\} and \{Alexander R{\"o}hr\}, Jason and Jenny Nelson and Jiangbin Xia and Parlak, \{Elif Alturk\} and Tumay, \{T{\"u}lay Asli\} and Egelhaaf, \{Hans Joachim\} and Tanenbaum, \{David M.\} and \{Mae Ferguson\}, Gretta and Robert Carpenter and Hongzheng Chen and Birger Zimmermann and Lionel Hirsch and Guillaume Wantz and Ziqi Sun and Pradeep Singh and Chaitnya Bapat and Ton Offermans and Krebs, \{Frederik C.\}",

note = "Funding Information: This work has been supported by the EUDP ( j.no. 64012-0202 ), the Danish National Research Foundation, the Eurotech Universities Alliance project “Interface science for photovoltaics (ISPV)”, the European Research Infrastructure (SOPHIA), the European Energy Research Alliance (EERA), the Danish Ministry of Science, Innovation and Higher Education under a Sapere Aude Top Scientist Grant no.( DFF – 1335-00037A ), an Elite Scientist Grant no.( 11-116028 ), MICINN-Spain (Grant \# MAT2010-21267-C02-02 ) including FEDER funds, the UK Department for Business, Innovation \& Skills, the Royal Society and the EPSRC for grants EP/G031088 , EP/J500021 and EP/K030671 . Funding Information: MN and SAC acknowledge co-funding by the European Regional Development Fund and the Republic of Cyprus through the Research Promotion Foundation (Strategic Infrastructure Project ΝΕΑ ΥΠΟΔΟΜΗ/ΣΤΡΑΤΗ/0308/06 ). A. E. G., R. K. M. and E.A.K. thank a financial support from the European Commission׳s Seventh Framework Program under Grant agreement no. 261936 .",

year = "2014",

month = jan,

day = "1",

doi = "10.1016/j.solmat.2014.07.021",

language = "American English",

volume = "130",

pages = "281--290",

journal = "Solar Energy Materials and Solar Cells",

issn = "0927-0248",

publisher = "Elsevier B.V.",

}

Madsen, MV, Gevorgyan, SA, Pacios, R, Ajuria, J, Etxebarria, I, Kettle, J, Bristow, ND, Neophytou, M, Choulis, SA, Stolz Roman, L, Yohannes, T, Cester, A, Cheng, P, Zhan, X, Wu, J, Xie, Z, Tu, WC, He, JH, Fell, CJ, Anderson, K, Hermenau, M, Bartesaghi, D, Jan Anton Koster, L, Machui, F, González-Valls, I, Lira-Cantu, M, Khlyabich, PP, Thompson, BC, Gupta, R, Shanmugam, K, Kulkarni, GU, Galagan, Y, Urbina, A, Abad, J, Roesch, R, Hoppe, H, Morvillo, P, Bobeico, E, Panaitescu, E, Menon, L, Luo, Q, Wu, Z, Ma, C, Hambarian, A, Melikyan, V, Hambsch, M, Burn, PL, Meredith, P, Rath, T, Dunst, S, Trimmel, G, Bardizza, G, Müllejans, H, Goryachev, AE, Misra, RK, Katz, EA, Takagi, K, Magaino, S, Saito, H, Aoki, D, Sommeling, PM, Kroon, JM, Vangerven, T, Manca, J, Kesters, J, Maes, W, Bobkova, OD, Trukhanov, VA, Paraschuk, DY, Castro, FA, Blakesley, J, Tuladhar, SM, Alexander Röhr, J, Nelson, J, Xia, J, Parlak, EA, Tumay, TA, Egelhaaf, HJ, Tanenbaum, DM, Mae Ferguson, G, Carpenter, R, Chen, H, Zimmermann, B, Hirsch, L, Wantz, G, Sun, Z, Singh, P, Bapat, C, Offermans, T & Krebs, FC 2014, 'Worldwide outdoor round robin study of organic photovoltaic devices and modules', Solar Energy Materials and Solar Cells, vol. 130, pp. 281-290. https://doi.org/10.1016/j.solmat.2014.07.021

TY - JOUR

T1 - Worldwide outdoor round robin study of organic photovoltaic devices and modules

AU - Madsen, Morten V.

AU - Gevorgyan, Suren A.

AU - Pacios, R.

AU - Ajuria, J.

AU - Etxebarria, I.

AU - Kettle, Jeff

AU - Bristow, Noel D.

AU - Neophytou, Marios

AU - Choulis, Stelios A.

AU - Stolz Roman, Lucimara

AU - Yohannes, Teketel

AU - Cester, Andrea

AU - Cheng, Pei

AU - Zhan, Xiaowei

AU - Wu, Jiang

AU - Xie, Zhiyuan

AU - Tu, Wei Chen

AU - He, Jr Hau

AU - Fell, Christopher J.

AU - Anderson, Kenrick

AU - Hermenau, Martin

AU - Bartesaghi, Davide

AU - Jan Anton Koster, L.

AU - Machui, Florian

AU - González-Valls, Irene

AU - Lira-Cantu, Monica

AU - Khlyabich, Petr P.

AU - Thompson, Barry C.

AU - Gupta, Ritu

AU - Shanmugam, Kiruthika

AU - Kulkarni, Giridhar U.

AU - Galagan, Yulia

AU - Urbina, Antonio

AU - Abad, Jose

AU - Roesch, Roland

AU - Hoppe, Harald

AU - Morvillo, P.

AU - Bobeico, E.

AU - Panaitescu, Eugen

AU - Menon, Latika

AU - Luo, Qun

AU - Wu, Zhenwu

AU - Ma, Changqi

AU - Hambarian, Artak

AU - Melikyan, Varuzhan

AU - Hambsch, M.

AU - Burn, Paul L.

AU - Meredith, Paul

AU - Rath, Thomas

AU - Dunst, Sebastian

AU - Trimmel, Gregor

AU - Bardizza, Giorgio

AU - Müllejans, Harald

AU - Goryachev, A. E.

AU - Misra, Ravi K.

AU - Katz, Eugene A.

AU - Takagi, Katsuhiko

AU - Magaino, Shinichi

AU - Saito, Hidenori

AU - Aoki, Daisuke

AU - Sommeling, Paul M.

AU - Kroon, Jan M.

AU - Vangerven, Tim

AU - Manca, Jean

AU - Kesters, Jurgen

AU - Maes, Wouter

AU - Bobkova, Olga D.

AU - Trukhanov, Vasily A.

AU - Paraschuk, Dmitry Yu

AU - Castro, Fernando A.

AU - Blakesley, James

AU - Tuladhar, Sachetan M.

AU - Alexander Röhr, Jason

AU - Nelson, Jenny

AU - Xia, Jiangbin

AU - Parlak, Elif Alturk

AU - Tumay, Tülay Asli

AU - Egelhaaf, Hans Joachim

AU - Tanenbaum, David M.

AU - Mae Ferguson, Gretta

AU - Carpenter, Robert

AU - Chen, Hongzheng

AU - Zimmermann, Birger

AU - Hirsch, Lionel

AU - Wantz, Guillaume

AU - Sun, Ziqi

AU - Singh, Pradeep

AU - Bapat, Chaitnya

AU - Offermans, Ton

AU - Krebs, Frederik C.

N1 - Funding Information: This work has been supported by the EUDP ( j.no. 64012-0202 ), the Danish National Research Foundation, the Eurotech Universities Alliance project “Interface science for photovoltaics (ISPV)”, the European Research Infrastructure (SOPHIA), the European Energy Research Alliance (EERA), the Danish Ministry of Science, Innovation and Higher Education under a Sapere Aude Top Scientist Grant no.( DFF – 1335-00037A ), an Elite Scientist Grant no.( 11-116028 ), MICINN-Spain (Grant # MAT2010-21267-C02-02 ) including FEDER funds, the UK Department for Business, Innovation & Skills, the Royal Society and the EPSRC for grants EP/G031088 , EP/J500021 and EP/K030671 . Funding Information: MN and SAC acknowledge co-funding by the European Regional Development Fund and the Republic of Cyprus through the Research Promotion Foundation (Strategic Infrastructure Project ΝΕΑ ΥΠΟΔΟΜΗ/ΣΤΡΑΤΗ/0308/06 ). A. E. G., R. K. M. and E.A.K. thank a financial support from the European Commission׳s Seventh Framework Program under Grant agreement no. 261936 .

PY - 2014/1/1

Y1 - 2014/1/1

N2 - 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.

AB - 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.

KW - Efficiency reporting

KW - Interlaboratory study

KW - OPV

KW - Organic photovoltaic

KW - Round robin

KW - Worldwide coverage

UR - http://www.scopus.com/inward/record.url?scp=84905660622&partnerID=8YFLogxK

U2 - 10.1016/j.solmat.2014.07.021

DO - 10.1016/j.solmat.2014.07.021

M3 - Article

SN - 0927-0248

VL - 130

SP - 281

EP - 290

JO - Solar Energy Materials and Solar Cells

JF - Solar Energy Materials and Solar Cells

ER -

Worldwide outdoor round robin study of organic photovoltaic devices and modules

Abstract

UN SDGs

Keywords

All Science Journal Classification (ASJC) codes

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