Stability of organic solar cells with PCDTBT donor polymer: An interlaboratory study. Ciammaruchi, L., Oliveira, R., Charas, A., Tulus, Von Hauff, E., Polino, G., Brunetti, F., Hansson, R., Moons, E., Krassas, M., Kakavelakis, G., Kymakis, E., Sánchez, J., Ferre-Borrull, J., Marsal, L., Züfle, S., Fluhr, D., Roesch, R., Faber, T., Schubert, U., Hoppe, H., Bakker, K., Veenstra, S., Zanotti, G., Katz, E., Apilo, P., Romero, B., Tumay, T., Parlak, E., Stagno, L., Turkovic, V., Rubahn, H., Madsen, M., Kažukauskas, V., Tanenbaum, D., Shanmugam, S., & Galagan, Y. Journal of Materials Research, 2018.
abstract   bibtex   
Copyright © Materials Research Society 2018. 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.
@article{
 title = {Stability of organic solar cells with PCDTBT donor polymer: An interlaboratory study},
 type = {article},
 year = {2018},
 identifiers = {[object Object]},
 keywords = {energetic material,nanoscale,organic},
 volume = {33},
 id = {0d9ad3cb-d192-33dc-868b-3e09e4df630d},
 created = {2020-09-22T06:58:37.329Z},
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 profile_id = {27227121-76ad-362c-989c-d92a526ac39d},
 last_modified = {2020-09-22T06:58:37.329Z},
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 abstract = {Copyright © Materials Research Society 2018. 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.},
 bibtype = {article},
 author = {Ciammaruchi, L. and Oliveira, R. and Charas, A. and Tulus, undefined and Von Hauff, E. and Polino, G. and Brunetti, F. and Hansson, R. and Moons, E. and Krassas, M. and Kakavelakis, G. and Kymakis, E. and Sánchez, J.G. and Ferre-Borrull, J. and Marsal, L.F. and Züfle, S. and Fluhr, D. and Roesch, R. and Faber, T. and Schubert, U.S. and Hoppe, H. and Bakker, K. and Veenstra, S. and Zanotti, G. and Katz, E.A. and Apilo, P. and Romero, B. and Tumay, T.A. and Parlak, E. and Stagno, L.M. and Turkovic, V. and Rubahn, H.-G. and Madsen, M. and Kažukauskas, V. and Tanenbaum, D.M. and Shanmugam, S. and Galagan, Y.},
 journal = {Journal of Materials Research},
 number = {13}
}
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