Stability of organic solar cells with PCDTBT donor polymer: an interlaboratory study

Laura Ciammaruchi; Ricardo Oliveira; Ana Charas; T. Tulus; Elizabeth Von Hauff; Giuseppina Polino; Francesca Brunetti; Richard Hansson; Ellen Moons; Mirron Krassas; George Kakavelakis; Emmanuel Kymakis; José G. Sanchez; Josep Ferre-Borrull; Lluis Marsal; Simon Züfle; Daniel Fluhr; Roland Roesch; Tobias Faber; Ulrich S.  Schubert; Harald Hoppe; Klaas Bakker; Sjoerd Veenstra; Gloria Zanotti; Eugene A. Katz; Pälvi Apilo; Beatriz Romero; Tülay Asli Tumay; Elif Parlak; Luciano Mule Stagno; Vida  Engmann; Horst-Günter Rubahn; Morten Madsen; Vaidotas Kazukauskas; David Tanenbaum; Santhosh Shanmugam; Y. Galagan

doi:10.1557/jmr.2018.163

Stability of organic solar cells with PCDTBT donor polymer: an interlaboratory study

Laura Ciammaruchi , Ricardo Oliveira, Ana Charas, T. Tulus, Elizabeth Von Hauff, Giuseppina Polino, Francesca Brunetti, Richard Hansson, Ellen Moons, Mirron Krassas, George Kakavelakis, Emmanuel Kymakis, José G. Sanchez, Josep Ferre-Borrull, Lluis Marsal, Simon Züfle, Daniel Fluhr, Roland Roesch, Tobias Faber, Ulrich S. SchubertHarald Hoppe, Klaas Bakker, Sjoerd Veenstra, Gloria Zanotti, Eugene A. Katz, Pälvi Apilo, Beatriz Romero, Tülay Asli Tumay, Elif Parlak, Luciano Mule Stagno, Vida Engmann, Horst-Günter Rubahn, Morten Madsen, Vaidotas Kazukauskas, David Tanenbaum, Santhosh Shanmugam, Y. Galagan

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Abstract

This work is part of the interlaboratory collaboration to study the stability of organic solar cells containing PCDTBT polymer as a donor material. The varieties of the OPV devices with different device architectures, electrode materials, encapsulation, and device dimensions were prepared by seven research laboratories. Sets of identical devices were aged according to four different protocols: shelf lifetime, laboratory weathering under simulated illumination at ambient temperature, laboratory weathering under simulated illumination, and elevated temperature (65 °C) and daylight outdoor weathering under sunlight. The results generated in this study allow us to outline several general conclusions related to PCDTBT-based bulk heterojunction (BHJ) solar cells. The results herein reported can be considered as practical guidance for the realization of stabilization approaches in BHJ solar cells containing PCDTBT.

Originalsprog	Engelsk
Tidsskrift	Journal of Materials Research
Vol/bind	33
Udgave nummer	13
Sider (fra-til)	1909-1924
ISSN	0884-2914
DOI	https://doi.org/10.1557/jmr.2018.163
Status	Udgivet - 2018

Dokumenter og links

10.1557/jmr.2018.163

SDU link

Tjek adgangen til materialet i Syddansk Universitetsbiblioteks søgemaskine

Andre filer og links

Erratum

Citationsformater

Ciammaruchi , L., Oliveira, R., Charas, A., Tulus, T., Von Hauff, E., Polino, G., Brunetti, F., Hansson, R., Moons, E., Krassas, M., Kakavelakis, G., Kymakis, E., Sanchez, J. G., Ferre-Borrull, J., Marsal, L., Züfle, S., Fluhr, D., Roesch, R., Faber, T., ... Galagan, Y. (2018). Stability of organic solar cells with PCDTBT donor polymer: an interlaboratory study. Journal of Materials Research, 33(13), 1909-1924. https://doi.org/10.1557/jmr.2018.163

@article{9248c1418466412abde30ac2d5b62098,

title = "Stability of organic solar cells with PCDTBT donor polymer: an interlaboratory study",

abstract = "This work is part of the interlaboratory collaboration to study the stability of organic solar cells containing PCDTBT polymer as a donor material. The varieties of the OPV devices with different device architectures, electrode materials, encapsulation, and device dimensions were prepared by seven research laboratories. Sets of identical devices were aged according to four different protocols: shelf lifetime, laboratory weathering under simulated illumination at ambient temperature, laboratory weathering under simulated illumination, and elevated temperature (65 °C) and daylight outdoor weathering under sunlight. The results generated in this study allow us to outline several general conclusions related to PCDTBT-based bulk heterojunction (BHJ) solar cells. The results herein reported can be considered as practical guidance for the realization of stabilization approaches in BHJ solar cells containing PCDTBT.",

keywords = "energetic material, nanoscale, organic",

author = "Laura Ciammaruchi and Ricardo Oliveira and Ana Charas and T. Tulus and {Von Hauff}, Elizabeth and Giuseppina Polino and Francesca Brunetti and Richard Hansson and Ellen Moons and Mirron Krassas and George Kakavelakis and Emmanuel Kymakis and Sanchez, {Jos{\'e} G.} and Josep Ferre-Borrull and Lluis Marsal and Simon Z{\"u}fle and Daniel Fluhr and Roland Roesch and Tobias Faber and Schubert, {Ulrich S.} and Harald Hoppe and Klaas Bakker and Sjoerd Veenstra and Gloria Zanotti and Katz, {Eugene A.} and P{\"a}lvi Apilo and Beatriz Romero and Tumay, {T{\"u}lay Asli} and Elif Parlak and Stagno, {Luciano Mule} and Vida Engmann and Horst-G{\"u}nter Rubahn and Morten Madsen and Vaidotas Kazukauskas and David Tanenbaum and Santhosh Shanmugam and Y. Galagan",

year = "2018",

doi = "10.1557/jmr.2018.163",

language = "English",

volume = "33",

pages = "1909--1924",

journal = "Journal of Materials Research",

issn = "0884-2914",

publisher = "Springer",

number = "13",

}

Ciammaruchi , L, Oliveira, R, Charas, A, Tulus, T, Von Hauff, E, Polino, G, Brunetti, F, Hansson, R, Moons, E, Krassas, M, Kakavelakis, G, Kymakis, E, Sanchez, JG, Ferre-Borrull, J, Marsal, L, Züfle, S, Fluhr, D, Roesch, R, Faber, T, Schubert, US, Hoppe, H, Bakker, K, Veenstra, S, Zanotti, G, Katz, EA, Apilo, P, Romero, B, Tumay, TA, Parlak, E, Stagno, LM, Engmann, V , Rubahn, H-G , Madsen, M, Kazukauskas, V, Tanenbaum, D, Shanmugam, S & Galagan, Y 2018, 'Stability of organic solar cells with PCDTBT donor polymer: an interlaboratory study', Journal of Materials Research, bind 33, nr. 13, s. 1909-1924. https://doi.org/10.1557/jmr.2018.163

TY - JOUR

T1 - Stability of organic solar cells with PCDTBT donor polymer

T2 - an interlaboratory study

AU - Ciammaruchi , Laura

AU - Oliveira, Ricardo

AU - Charas, Ana

AU - Tulus, T.

AU - Von Hauff, Elizabeth

AU - Polino, Giuseppina

AU - Brunetti, Francesca

AU - Hansson, Richard

AU - Moons, Ellen

AU - Krassas, Mirron

AU - Kakavelakis, George

AU - Kymakis, Emmanuel

AU - Sanchez, José G.

AU - Ferre-Borrull, Josep

AU - Marsal, Lluis

AU - Züfle, Simon

AU - Fluhr, Daniel

AU - Roesch, Roland

AU - Faber, Tobias

AU - Schubert, Ulrich S.

AU - Hoppe, Harald

AU - Bakker, Klaas

AU - Veenstra, Sjoerd

AU - Zanotti, Gloria

AU - Katz, Eugene A.

AU - Apilo, Pälvi

AU - Romero, Beatriz

AU - Tumay, Tülay Asli

AU - Parlak, Elif

AU - Stagno, Luciano Mule

AU - Engmann, Vida

AU - Rubahn, Horst-Günter

AU - Madsen, Morten

AU - Kazukauskas, Vaidotas

AU - Tanenbaum, David

AU - Shanmugam, Santhosh

AU - Galagan, Y.

PY - 2018

Y1 - 2018

N2 - This work is part of the interlaboratory collaboration to study the stability of organic solar cells containing PCDTBT polymer as a donor material. The varieties of the OPV devices with different device architectures, electrode materials, encapsulation, and device dimensions were prepared by seven research laboratories. Sets of identical devices were aged according to four different protocols: shelf lifetime, laboratory weathering under simulated illumination at ambient temperature, laboratory weathering under simulated illumination, and elevated temperature (65 °C) and daylight outdoor weathering under sunlight. The results generated in this study allow us to outline several general conclusions related to PCDTBT-based bulk heterojunction (BHJ) solar cells. The results herein reported can be considered as practical guidance for the realization of stabilization approaches in BHJ solar cells containing PCDTBT.

AB - This work is part of the interlaboratory collaboration to study the stability of organic solar cells containing PCDTBT polymer as a donor material. The varieties of the OPV devices with different device architectures, electrode materials, encapsulation, and device dimensions were prepared by seven research laboratories. Sets of identical devices were aged according to four different protocols: shelf lifetime, laboratory weathering under simulated illumination at ambient temperature, laboratory weathering under simulated illumination, and elevated temperature (65 °C) and daylight outdoor weathering under sunlight. The results generated in this study allow us to outline several general conclusions related to PCDTBT-based bulk heterojunction (BHJ) solar cells. The results herein reported can be considered as practical guidance for the realization of stabilization approaches in BHJ solar cells containing PCDTBT.

KW - energetic material

KW - nanoscale

KW - organic

UR - https://doi.org/10.1557/jmr.2018.276

U2 - 10.1557/jmr.2018.163

DO - 10.1557/jmr.2018.163

M3 - Journal article

SN - 0884-2914

VL - 33

SP - 1909

EP - 1924

JO - Journal of Materials Research

JF - Journal of Materials Research

IS - 13

ER -

Stability of organic solar cells with PCDTBT donor polymer: an interlaboratory study

Abstract

Dokumenter og links

SDU link

Andre filer og links

Fingeraftryk

Citationsformater