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4. Stability of organic solar cells with PCDTBT donor polymer: An interlaboratory study

Author

Ciammaruchi, Laura, Oliveira, Ricardo, Charas, Ana, Tulus, von Hauff, Elizabeth, Polino, Giuseppina, Brunetti, Francesca, Hansson, Rickard, Moons, Ellen, Krassas, Miron, Kakavelakis, George, Kymakis, Emmanuel, Sánchez, José G., Ferre-Borrull, Josep, Marsal, Lluis F., Züfle, Simon, Fluhr, Daniel, Roesch, Roland, Faber, Tobias, Schubert, Ulrich S., Hoppe, Harald, Bakker, Klaas, Veenstra, Sjoerd, Zanotti, Gloria, Katz, Eugene A., Apilo, Pälvi, Romero, Beatriz, Tumay, Tülay Aslı, Parlak, Elif, Stagno, Luciano Mule, Turkovic, Vida, Rubahn, Horst-Günter, Madsen, Morten, Kažukauskas, Vaidotas, Tanenbaum, David M., Shanmugam, Santhosh, and Galagan, Yulia more...

Published
2018
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7. The Photooxidation of PC60BM : new Insights from Spectroscopy

Author

Brumboiu, Iulia Emilia, Ericsson, Leif, Blazinic, Vanja, Hansson, Rickard, Opitz, Andreas, Brena, Barbara, Moons, Ellen, Brumboiu, Iulia Emilia, Ericsson, Leif, Blazinic, Vanja, Hansson, Rickard, Opitz, Andreas, Brena, Barbara, and Moons, Ellen more...

Abstract

Article part of Blazinic's (2019) doctoral thesis Probing the effects of photodegradation of acceptor materials in polymer solar cells: bulk, surface, and molecular level as manuscript.

Published
2022
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9. Erratum to: Stability of organic solar cells with PCDTBT donor polymer: An interlaboratory study – ERRATUM

Author

Ciammaruchi, Laura, Oliveira, Ricardo, Charas, Ana, Tulus, von Hauff, Elizabeth, Polino, Giuseppina, Brunetti, Francesca, Hansson, Rickard, Moons, Ellen, Krassas, Miron, Kakavelakis, George, Kymakis, Emmanuel, Sánchez, José G., Ferre-Borrull, Josep, Marsal, Lluis F., Züfle, Simon, Fluhr, Daniel, Roesch, Roland, Faber, Tobias, Schubert, Ulrich S., Hoppe, Harald, Bakker, Klaas, Veenstra, Sjoerd, Zanotti, Gloria, Katz, Eugene A., Apilo, Pälvi, Romero, Beatriz, Tumay, Tülay Aslı, Parlak, Elif, Stagno, Luciano Mule, Turkovic, Vida, Rubahn, Horst-Günter, Madsen, Morten, Kažukauskas, Vaidotas, Tanenbaum, David M., Shanmugam, Santhosh, and Galagan, Yulia more...

Published
2018
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10. Photooxidation of PC60BM: new insights from spectroscopy.

Author

Brumboiu, Iulia Emilia, Ericsson, Leif K.E., Blazinic, Vanja, Hansson, Rickard, Opitz, Andreas, Brena, Barbara, and Moons, Ellen

Abstract

This joint experimental–theoretical spectroscopy study of the fullerene derivative PC60BM ([6,6]-phenyl-C60-butyric acid methyl ester) aims to improve the understanding of the effect of photooxidation on its electronic structure. We have studied spin-coated thin films of PC60BM by X-ray Photoelectron Spectroscopy (XPS), Near-edge X-ray Absorption Fine Structure (NEXAFS) spectroscopy, and Fourier Transform Infrared Spectroscopy (FTIR), before and after intentional exposure to simulated sunlight in air for different lengths of time. The π* resonance in the C1s NEXAFS spectrum was found to be a very sensitive probe for the early changes to the fullerene cage, while FTIR spectra, in combination with O1s NEXAFS spectra, enabled the identification of the oxidation products. The changes observed in the spectra obtained by these complementary methods were compared with the corresponding Density Functional Theory (DFT) calculated single-molecule spectra of a large set of in silico generated oxidation products of PC60BM where oxygen atoms were attached to the C60 cage. This comparison confirms that photooxidation of PC60BM disrupts the conjugation of the fullerene cage by a transition from sp2 to sp3-hybridized carbon and causes the formation of several oxidation products, earlier proposed for C60. The agreement between experimental and calculated IR spectra suggests moreover the presence of dicarbonyl and anhydride structures on the fullerene cage, in combination with cage opening at the adsorption site. By including PC60BM with physisorbed O2 molecules on the cage in our theoretical description in order to model oxygen diffused through the film, the experimental O1s XPS and O1s NEXAFS spectra could be reproduced. [ABSTRACT FROM AUTHOR] more...

Published
2022
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11. Initial photo-degradation of PCDTBT:PC70BM solar cells studied under various illumination conditions : role of the hole transport layer

Author

Züfle, Simon, Hansson, Rickard, Katz, Eugene A., Moons, Ellen, Züfle, Simon, Hansson, Rickard, Katz, Eugene A., and Moons, Ellen

Abstract

Encapsulated organic solar cells often show a burn-in behaviour under illumination. This burn-in manifests itself as a rapid performance loss followed by a much slower progression of the degradation. Here we investigate the burn-in for PCDTBT:PC70BM solar cells under a wide range of illumination intensities. We find that increasing the sunlight concentration from 1 Sun to up to 100 Suns does not change the degradation behaviour, i.e. the dependence of all principal photovoltaic parameters on the dose of solar exposure (in Sun hours). This suggests that the degradation mechanisms under solar concentration (≤100 Suns) are the same as those observed under 1 Sun. This result makes it possible to use concentrated sunlight for accelerated stability assessment of these devices. We also find that devices with PEDOT:PSS as hole transport material show a rapid drop in open-circuit voltage of around 100 mV during the first Sun hour of light exposure. By replacing PEDOT:PSS with MoO3 this initial process can be prevented and only the much slower part of the photo-degradation takes place. more...

Published
2020

12. The influence of oxygen adsorption on the NEXAFS and core-level XPS spectra of the C60 derivative PCBM.

Author

Brumboiu, Iulia Emilia, Ericsson, Leif, Hansson, Rickard, Moons, Ellen, Eriksson, Olle, and Brena, Barbara

Subjects
X-ray absorption near edge structure, OXYGEN spectra, X-ray photoelectron spectroscopy, PHOTOVOLTAIC power generation, FULLERENES, OPEN-circuit voltage
Abstract

Fullerenes have been a main focus of scientific research since their discovery due to the interesting possible applications in various fields like organic photovoltaics (OPVs). In particular, the derivative [6,6]-phenyl-C60-butyric acid methyl ester (PCBM) is currently one of the most popular choices due to its higher solubility in organic solvents compared to unsubstituted C60. One of the central issues in the field of OPVs is device stability, since modules undergo deterioration (losses in efficiency, open circuit voltage, and short circuit current) during operation. In the case of fullerenes, several possibilities have been proposed, including dimerization, oxidation, and impurity related deterioration. We have studied by means of density functional theory the possibility of oxygen adsorption on the C60 molecular moiety of PCBM. The aim is to provide guidelines for near edge X-ray absorption fine structure (NEXAFS) and X-ray photoelectron spectroscopy (XPS) measurements which can probe the presence of atomic or molecular oxygen on the fullerene cage. By analysing several configurations of PCBM with one or more adsorbed oxygen atoms, we show that a joint core level XPS and O1s NEXAFS investigation could be effectively used not only to confirm oxygen adsorption but also to pinpoint the bonding configuration and the nature of the adsorbate. [ABSTRACT FROM AUTHOR] more...

Published
2015
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13. Stability of organic solar cells with PCDTBT donor polymer : an interlaboratory study

Author

Ciammaruchi, Laura, Oliveira, Ricardo, Charas, Ana, Tulus, N.N., von Hauff, Elizabeth, Polino, Giuseppina, Brunetti, Francesca, Hansson, Rickard, Moons, Ellen, Krassas, Miron, Kakavelakis, George, Kymakis, Emmanuel, Sánchez, José G., Ferre-Borrull, Josep, Marsal, Lluis F., Züfle, Simon, Fluhr, Daniel, Roesch, Roland, Faber, Tobias, Schubert, Ulrich S., Hoppe, Harald, Bakker, Klaas, Veenstra, Sjoerd, Zanotti, Gloria, Katz, Eugene A., Apilo, Pälvi, Romero, Beatriz, Tumay, Tülay Aslı, Parlak, Elif, Stagno, Luciano Mule, Turkovic, Vida, Rubahn, Horst-Günter, Madsen, Morten, Kažukauskas, Vaidotas, Tanenbaum, David M., Shanmugam, Santhosh, Galagan, Yulia, Ciammaruchi, Laura, Oliveira, Ricardo, Charas, Ana, Tulus, N.N., von Hauff, Elizabeth, Polino, Giuseppina, Brunetti, Francesca, Hansson, Rickard, Moons, Ellen, Krassas, Miron, Kakavelakis, George, Kymakis, Emmanuel, Sánchez, José G., Ferre-Borrull, Josep, Marsal, Lluis F., Züfle, Simon, Fluhr, Daniel, Roesch, Roland, Faber, Tobias, Schubert, Ulrich S., Hoppe, Harald, Bakker, Klaas, Veenstra, Sjoerd, Zanotti, Gloria, Katz, Eugene A., Apilo, Pälvi, Romero, Beatriz, Tumay, Tülay Aslı, Parlak, Elif, Stagno, Luciano Mule, Turkovic, Vida, Rubahn, Horst-Günter, Madsen, Morten, Kažukauskas, Vaidotas, Tanenbaum, David M., Shanmugam, Santhosh, and Galagan, Yulia more...

Abstract

Erworben im Rahmen der Schweizer Nationallizenzen (http://www.nationallizenzen.ch), 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. more...

Published
2019

14. Impact of intentional photo-oxidation of a donor polymer and PC70BM on solar cell performance

Author

Blazinic, Vanja, Ericsson, Leif, Levine, Igal, Hansson, Rickard, Opitz, Andreas, Moons, Ellen, Blazinic, Vanja, Ericsson, Leif, Levine, Igal, Hansson, Rickard, Opitz, Andreas, and Moons, Ellen

Abstract

A short lifetime is the main factor hindering the wider implementation of low-cost organic photovoltaics in large-area and outdoor applications. Ingress of oxygen and water vapour through non-ideal encapsulation layers is a known cause of degradation for polymer/fullerene based solar cells. To better understand the origin of this performance degradation, we study the effect of intentional exposure of the photo-active layer to simulated sunlight (AM1.5) in air both on the solar cell performance and on the molecular semiconductor materials. Cathode-free thin films of a blend of the electron donor polymer poly[2,3-bis-(3-octyloxyphenyl)quinoxaline-5,8-diyl-alt-thiophene-2,5-diyl] (TQ1) and the electron acceptor fullerene derivative [6,6]-phenyl-C70-butyric acid methyl ester (PC70BM) were exposed to simulated sunlight in air. Fourier-transform infrared spectra demonstrate the formation of carbonyl photo-oxidation products in the blend films, as well as in the pristine polymer and fullerene films. Solar cells prepared with photo-oxidized active layers show increasingly degraded electrical performance (lower short circuit current, open circuit voltage and fill factor) with increasing exposure time. The increased diode ideality factor indicates that trap-assisted recombination hinders device operation after exposure. The external quantum efficiency decreases drastically with increasing exposure time over the whole photon energy range, while the UV-vis absorption spectra of the blend films only show a mild photo-induced bleaching. This demonstrates that not only the photo-induced degradation of the solar cell performance is not predominantly caused by the loss in light absorption, but charge transport and collection are also hampered. This is explained by the fact that photo-oxidation of PC70BM causes bonds in its conjugated cage to break, as evidenced by the decreased ∏* intensity in C1s-NEXAFS spectra of PC70BM films. This degradation of unoccupied states of PC70BM will h more...

Published
2019
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15. Initial photo-degradation of PCDTBT:PC 70 BM solar cells studied under various illumination conditions : Role of the hole transport layer

Author

Züfle, Simon, Hansson, Rickard, Katz, Eugene A., Moons, Ellen, Züfle, Simon, Hansson, Rickard, Katz, Eugene A., and Moons, Ellen

Abstract

ncapsulated organic solar cells often show a burn-in behaviour under illumination. This burn-in manifests itself as a rapid performance loss followed by a much slower progression of the degradation. Here we investigate the burn-in for PCDTBT:PC 70 BM solar cells under a wide range of illumination intensities. We find that increasing the sunlight concentration from 1 Sun to up to 100 Suns does not change the degradation behaviour, i.e. the dependence of all principal photovoltaic parameters on the dose of solar exposure (in Sun hours). This suggests that the degradation mechanisms under solar concentration (≤100 Suns) are the same as those observed under 1 Sun. This result makes it possible to use concentrated sunlight for accelerated stability assessment of these devices. We also find that devices with PEDOT:PSS as hole transport material show a rapid drop in open-circuit voltage of around 100 mV during the first Sun hour of light exposure. By replacing PEDOT:PSS with MoO 3 this initial process can be prevented and only the much slower part of the photo-degradation takes place., Publicerad i Hanssons doktorsavhandling Materials and Device Engineering for Efficient and Stable Polymer Solar Cells som manuskript med titeln: "The role of the hole transport layer in the initial photo-degradation of PCDTBTPC70BM solar cells" more...

Published
2019
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16. Low temperature activation of B implantation of Si subcell fabrication in III-V/Si tandem solar cells

Author

Chuan Chen, Max, Omanakuttan, Giriprasanth, Hansson, Rickard, Strömberg, Axel, Hallén, Anders, Rinio, Markus, Lourdudoss, Sebastian, Sun, Yan-Ting, Chuan Chen, Max, Omanakuttan, Giriprasanth, Hansson, Rickard, Strömberg, Axel, Hallén, Anders, Rinio, Markus, Lourdudoss, Sebastian, and Sun, Yan-Ting more...

Abstract

In this work, we investigated the Si pre-amorphization implantation (PAI) assisted low temperatureannealing process to activate boron implantation in n-Si in a hydride vapor phase epitaxy (HVPE) reactor, which canbe used for the Si subcell fabrication in the III-V/Si tandem solar cells enabled by the corrugated epitaxial lateralovergrowth (CELOG). A uniform boron activation in Si and a low emitter sheet resistance of 77 /sq was obtained atannealing temperatures of 600-700°C. High-resolution x-ray diffraction was used to study the recrystallization ofamorphous silicon and the incorporation of boron dopants in Si. Hall measurements revealed p-type carrierconcentrations in the order of 1020 cm-3. The n-Si wafers with B implantation activated at 700°C by HVPE wereprocessed to solar cells and characterized by the standard light-current-voltage measurement under AM1.5 spectrumand external quantum efficiency measurements. The developed B implantation and low temperature activationprocesses are applied to the InP/Si seed template preparation for CELOG, on which CELOG GaInP over a Si subcellwith a direct heterojunction was demonstrated. more...

Published
2019
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18. Stability of organic solar cells with PCDTBT donor polymer: An interlaboratory study - Erratum

Author

Ciammaruchi, Laura, Oliveira, Ricardo, Charas, Ana, Tulus, von Hauff, Elizabeth, Polino, Giuseppina, Brunetti, Francesca, Hansson, Rickard, Moons, Ellen, Krassas, Miron, Kakavelakis, George, Kymakis, Emmanuel, Sanchez, Jose G., Ferre-Borrull, Josep, Marsal, Lluis F., Zufle, Simon, Fluhr, Daniel, Roesch, Roland, Faber, Tobias, Schubert, Ulrich S., Hoppe, Harald, Bakker, Klaas, Veenstra, Sjoerd, Zanotti, Gloria, Katz, Eugene A., Apilo, Palvi, Romero, Beatriz, Tumay, Tulay Asli, Parlak, Elif, Stagno, Luciano Mule, Turkovic, Vida, Rubahn, Horst-Gunter, Madsen, Morten, Kazukauskas, Vaidotas, Tanenbaum, David M., Shanmugam, Santhosh, Galagan, Yulia, Ciammaruchi, Laura, Oliveira, Ricardo, Charas, Ana, Tulus, von Hauff, Elizabeth, Polino, Giuseppina, Brunetti, Francesca, Hansson, Rickard, Moons, Ellen, Krassas, Miron, Kakavelakis, George, Kymakis, Emmanuel, Sanchez, Jose G., Ferre-Borrull, Josep, Marsal, Lluis F., Zufle, Simon, Fluhr, Daniel, Roesch, Roland, Faber, Tobias, Schubert, Ulrich S., Hoppe, Harald, Bakker, Klaas, Veenstra, Sjoerd, Zanotti, Gloria, Katz, Eugene A., Apilo, Palvi, Romero, Beatriz, Tumay, Tulay Asli, Parlak, Elif, Stagno, Luciano Mule, Turkovic, Vida, Rubahn, Horst-Gunter, Madsen, Morten, Kazukauskas, Vaidotas, Tanenbaum, David M., Shanmugam, Santhosh, and Galagan, Yulia more...

Abstract

In Ciammaruchi et al.,1 the affiliation of Vida Turkovic, Horst-Gunter Rubahn, and Morten Madsen was erroneously changed during revision. The correct affiliation is as follows: Vida Turkovic, Horst-Gunter Rubahn, and Morten Madsen. SDU Nano SYD, Mads Clausen Institute, University of Southern Denmark, Sonderborg 6400, Denmark. The publisher regrets this error. more...

Published
2018
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19. Materials and Device Engineering for Efficient and Stable Polymer Solar Cells

Author

Hansson, Rickard

Subjects
photovoltaics, conjugated polymer, fullerene, morphology, Physical Sciences, Fysik, polymer solar cell, photo-degradation, synchroton-based techniques, hole transport layers
Abstract

Polymer solar cells form a promising technology for converting sunlight into electricity, and have reached record efficiencies over 10% and lifetimes of several years. The performance of polymer solar cells depends strongly on the distribution of electron donor and acceptor materials in the active layer. To achieve longer lifetimes, degradation processes in the materials have to be understood. In this thesis, a set of complementary spectroscopy and microscopy techniques, among which soft X-ray techniques have been used to determine the morphology of polymer:fullerene based active layers. We have found that the morphology of TQ1:PC70BM films is strongly influenced by the processing solvent and the use of solvent additives. We have also found, by using soft X-ray techniques, that not only the light-absorbing polymer TQ1, but also the fullerene is susceptible to photo-degradation in air. Moreover, the fullerene degradation is accelerated in the presence of the polymer. Additionally, this thesis addresses the role of the interfacial layers for device performance and stability. The commonly used hole transport material PEDOT:PSS has the advantage of being solution processable at room temperature, but this layer is also known to contribute to the device degradation. We have found that low-temperature processed NiOx is a promising alternative to PEDOT:PSS, leading to improved device performance. Even for encapsulated polymer solar cells, some photo-induced degradation of the electrical performance is observed and is found to depend on the nature of the hole transport material. We found a better initial stability for solar cells with MoO3 hole transport layers than with PEDOT:PSS. In the pursuit of understanding the initial decrease in electrical performance of PEDOT:PSS-based devices, simulations were performed, from which a number of degradation sources could be excluded. With the increasing global demand for energy, solar cells provide a clean method for converting the abundant sunlight to electricity. Polymer solar cells can be made from a large variety of light-harvesting and electrically conducting molecules and are inexpensive to produce. They have additional advantages, like their mechanical flexibility and low weight, which opens opportunities for novel applications. In order for polymer solar cells to be more competitive, however, both the power conversion efficiencies and lifetimes need to further improve. One way to achieve this is to optimize the morphology of the active layer. The active layer of a polymer solar cell consists of electron donating and electron accepting molecules whose distribution in the bulk of the film is a major factor that determines the solar cell performance. This thesis presents the use of complementary spectroscopy and microscopy methods to probe the local composition in the active layer of polymer solar cells. The stability of the active layer is studied and the interplay between the photo-degradation of the donor and acceptor molecules is investigated. Additionally, this thesis addresses how the interfacial layers between the active layer and the electrodes can influence device performance and stability. I publikationen felaktigt ISBN 978-91-7063-739-1Artikel 5 publicerad i avhandlingen som manuskript med titeln "The role of the hole transport layer in the initial photo-degradation of PCDTBT: PC70BM solar cells" more...

Published
2017

20. Impact of intentional photo-oxidation of a donor polymer and PC70BM on solar cell performance.

Author

Blazinic, Vanja, Ericsson, Leif K. E., Levine, Igal, Hansson, Rickard, Opitz, Andreas, and Moons, Ellen

Abstract

A short lifetime is the main factor hindering the wider implementation of low-cost organic photovoltaics in large-area and outdoor applications. Ingress of oxygen and water vapour through non-ideal encapsulation layers is a known cause of degradation for polymer/fullerene based solar cells. To better understand the origin of this performance degradation, we study the effect of intentional exposure of the photo-active layer to simulated sunlight (AM1.5) in air both on the solar cell performance and on the molecular semiconductor materials. Cathode-free thin films of a blend of the electron donor polymer poly[2,3-bis-(3-octyloxyphenyl)quinoxaline-5,8-diyl-alt-thiophene-2,5-diyl] (TQ1) and the electron acceptor fullerene derivative [6,6]-phenyl-C70-butyric acid methyl ester (PC70BM) were exposed to simulated sunlight in air. Fourier-transform infrared spectra demonstrate the formation of carbonyl photo-oxidation products in the blend films, as well as in the pristine polymer and fullerene films. Solar cells prepared with photo-oxidized active layers show increasingly degraded electrical performance (lower short circuit current, open circuit voltage and fill factor) with increasing exposure time. The increased diode ideality factor indicates that trap-assisted recombination hinders device operation after exposure. The external quantum efficiency decreases drastically with increasing exposure time over the whole photon energy range, while the UV-vis absorption spectra of the blend films only show a mild photo-induced bleaching. This demonstrates that not only the photo-induced degradation of the solar cell performance is not predominantly caused by the loss in light absorption, but charge transport and collection are also hampered. This is explained by the fact that photo-oxidation of PC70BM causes bonds in its conjugated cage to break, as evidenced by the decreased π* intensity in C1s-NEXAFS spectra of PC70BM films. This degradation of unoccupied states of PC70BM will hinder the transport of photo-generated electrons to the electrode. Surface photovoltage spectroscopy gives direct evidence for gap states at the surface of a PC70BM film, formed after 2 hours of exposure and resulting in upward band bending at the PC70BM/air surface. These observations indicate that the photo-oxidation of PC70BM is likely to be the main cause of the performance degradation observed when the photoactive layer of a TQ1:PC70BM solar cell is intentionally exposed to light in air. [ABSTRACT FROM AUTHOR] more...

Published
2019
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21. Morphology and material stability in polymer solar cells

Author

Hansson, Rickard

Subjects
photovoltaics, conjugated polymer, fullerene, morphology, Physical Sciences, Fysik, polymer solar cell, photo-degradation, synchroton-based techniques
Abstract

Polymer solar cells are promising in that they are inexpensive to produce, and due to their mechanical flexibility have the potential for use in applications not possible for more traditional types of solar cells. The performance of polymer solar cells depends strongly on the distribution of electron donor and acceptor material in the active layer. Understanding the connection between morphology and performance as well as how to control the morphology, is therefore of great importance. Furthermore, improving the lifetime of polymer solar cells has become at least as important as improving the efficiency. In this thesis, the relation between morphology and solar cell performance is studied, and the material stability for blend films of the thiophene-quinoxaline copolymer TQ1 and the fullerene derivatives PCBM and PC70BM. Atomic force microscopy (AFM) and scanning transmission X-ray microscopy (STXM) are used to investigate the lateral morphology, secondary ion mass spectrometry (SIMS) to measure the vertical morphology and near-edge X-ray absorption fine structure (NEXAFS) spectroscopy to determine the surface composition. Lateral phase-separated domains are observed whose size is correlated to the solar cell performance, while the observed TQ1 surface enrichment does not affect the performance. Changes to the unoccupied molecular orbitals as a result of illumination in ambient air are observed by NEXAFS spectroscopy for PCBM, but not for TQ1. The NEXAFS spectrum of PCBM in a blend with TQ1 changes more than that of pristine PCBM. Solar cells in which the active layer has been illuminated in air prior to the deposition of the top electrode exhibit greatly reduced electrical performance. The valence band and absorption spectrum of TQ1 is affected by illumination in air, but the effects are not large enough to account for losses in solar cell performance, which are mainly attributed to PCBM degradation at the active layer surface. The performance of polymer solar cells depends strongly on the distribution of electron donor and acceptor material in the active layer. Understanding the connection between morphology and performance as well as how to control the morphology, is therefore of great importance. Furthermore, improving the lifetime has become at least as important as improving the efficiency for polymer solar cells to become a viable technology. In this work, the relation between morphology and solar cell performance is studied as well as the material stability for polymer:fullerene blend films. A combination of microscopic and spectroscopic methods is used to investigate the lateral and vertical morphology as well as the surface composition. Lateral phase-separated domains are observed whose size is correlated to the solar cell performance, while the observed surface enrichment of polymer does not affect the performance. Changes to the unoccupied molecular states as a result of illumination in ambient air are observed for the fullerene, but not for the polymer, and fullerenes in a blend change more than pristine fullerenes. Solar cells in which the active layer has been illuminated exhibit greatly reduced electrical performance, mainly attributed to fullerene degradation at the active layer surface. Paper 2 ingick som manuskript i avhandlingen. Nu publicerad. more...

Published
2015

22. Organic heterojunctions : Contact-induced molecular reorientation, interface states, and charge redistribution

Author

Opitz, Andreas, Wilke, Andreas, Amsalem, Patrick, Oehzelt, Martin, Blum, Ralf-Peter, Rabe, Juergen P., Mizokuro, Toshiko, Hoermann, Ulrich, Hansson, Rickard, Moons, Ellen, Koch, Norbert, Opitz, Andreas, Wilke, Andreas, Amsalem, Patrick, Oehzelt, Martin, Blum, Ralf-Peter, Rabe, Juergen P., Mizokuro, Toshiko, Hoermann, Ulrich, Hansson, Rickard, Moons, Ellen, and Koch, Norbert more...

Abstract

We reveal the rather complex interplay of contact-induced re-orientation and interfacial electronic structure-in the presence of Fermi-level pinning-at prototypical molecular heterojunctions comprising copper phthalocyanine (H16CuPc) and its perfluorinated analogue (F16CuPc), by employing ultraviolet photoelectron and X-ray absorption spectroscopy. For both layer sequences, we find that Fermi-level (E-F) pinning of the first layer on the conductive polymer substrate modifies the work function encountered by the second layer such that it also becomes E-F-pinned, however, at the interface towards the first molecular layer. This results in a charge transfer accompanied by a sheet charge density at the organic/organic interface. While molecules in the bulk of the films exhibit upright orientation, contact formation at the heterojunction results in an interfacial bilayer with lying and co-facial orientation. This interfacial layer is not EF-pinned, but provides for an additional density of states at the interface that is not present in the bulk. With reliable knowledge of the organic heterojunction's electronic structure we can explain the poor performance of these in photovoltaic cells as well as their valuable function as charge generation layer in electronic devices. more...

Published
2016
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23. Photodegradation in air of the active layer components in a thiophene-quinoxaline copolymer:fullerene solar cell

Author

Hansson, Rickard, Lindqvist, Camilla, Ericsson, Leif, Opitz, Andreas, Wang, Ergang, Moons, Ellen, Hansson, Rickard, Lindqvist, Camilla, Ericsson, Leif, Opitz, Andreas, Wang, Ergang, and Moons, Ellen

Abstract

We have studied the photo-degradation in air of a blend of [6,6]-phenyl-C61-butyric acid methyl ester (PCBM) and poly[2,3-bis-(3-octyloxyphenyl)quinoxaline-5,8-diyl-alt-thiophene-2,5-diyl] (TQ1), and how the photo-degradation affects the solar cell performance. Using near-edge X-ray absorption fine structure (NEXAFS) spectroscopy, changes to the electronic structure of TQ1 and PCBM caused by illumination in ambient air are investigated and compared between the pristine materials and the blend. The NEXAFS spectra show that the unoccupied molecular orbitals of TQ1 are not significantly changed by the exposure of pristine TQ1 to light in air, whereas those of PCBM are severely affected as a result of photo-induced degradation of PCBM. Furthermore, the photo-degradation of PCBM is accelerated by blending it with TQ1. While the NEXAFS spectrum of TQ1 remains unchanged upon illumination in air, its valence band spectrum shows that the occupied molecular orbitals are weakly affected. Yet, UV-Vis absorption spectra demonstrate photo-bleaching of TQ1, which is attenuated in the presence of PCBM in blend films. Illumination of the active layer of TQ1: PCBM solar cells prior to cathode deposition causes severe losses in electrical performance. more...

Published
2016
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24. Scania Triton

Author

Hansson, Rickard

Subjects
vehicle, firefighter, wildfires, global warming, fire trucks, fire
Abstract

70 % of the worlds most expensive wildfireshas occurred since year 2003. This is a clear example of that wildfires arean increasingly growing problem which demands new solutions. Some of the most prominent problems of fighting wildfires are the harsh terrainand limited accessibility, the lack of communication and difficulties in creating an overview off the scene and predict how the wildfire will develop. These problems are all factors which I have tried to focus on in my degree project, the Trition. By doing thoroughly research about wildfires and by gathering information and inspiration from other areas, such as the military, it was possible to see the problems of wildfires in a more problem solving perspective. Ideas and forms were generated through unrestrictive sketching and created sketch models.The Trition is a terrain fire truck that serves as a response vehicle, with exceptionally good off-road mobility and that always can be first at the scene. The Trition also serves as a command central which can organise the enormous operations that big fires demands. By having a mobile and multifunctional command central it is possible to always have the latest data about the scene and plan the wildfire fighting in the most efficient way.The Trition is equipped with a drone on its roof. The drone can take off and sweep the area, collecting data which gives the firefighters a good overview and that help to predict the wildfire, such as wind speed and the terrain incline. The drone also has an important preventing function. By regularly sweeping inhabitant areas, the drones infrared camera can detect wildfires earlyon and alert the Trition for an early intervention. more...

Published
2013

25. Swedish experiences of spice

Author

Hansson, Rickard

Subjects
InformationSystems_MODELSANDPRINCIPLES, Hardware_INTEGRATEDCIRCUITS, Hardware_PERFORMANCEANDRELIABILITY, GeneralLiterature_MISCELLANEOUS, Hardware_LOGICDESIGN
Published
2013

26. Organic heterojunctions: Contact-induced molecular reorientation, interface states and charge re-distribution

Author

Opitz, Andreas, primary, Wilke, Andreas, additional, Amsalem, Patrick, additional, Oehzelt, Martin, additional, Blum, Ralf-Peter, additional, Rabe, Jürgen P., additional, Mizokuro, Toshiko, additional, Hörmann, Ulrich, additional, Hansson, Rickard, additional, Moons, Ellen, additional, and Koch, Norbert, additional more...

Published
2016
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28. The influence of oxygen adsorption on the NEXAFS and core-level XPS spectra of the C-60 derivative PCBM

Author

Brumboiu, Iulia Emilia, Ericsson, Leif, Hansson, Rickard, Moons, Ellen, Eriksson, Olle, Brena, Barbara, Brumboiu, Iulia Emilia, Ericsson, Leif, Hansson, Rickard, Moons, Ellen, Eriksson, Olle, and Brena, Barbara more...

Abstract

Fullerenes have been a main focus of scientific research since their discovery due to the interesting possible applications in various fields like organic photovoltaics (OPVs). In particular, the derivative [6,6]-phenyl-C-60-butyric acid methyl ester (PCBM) is currently one of the most popular choices due to its higher solubility in organic solvents compared to unsubstituted C-60. One of the central issues in the field of OPVs is device stability, since modules undergo deterioration (losses in efficiency, open circuit voltage, and short circuit current) during operation. In the case of fullerenes, several possibilities have been proposed, including dimerization, oxidation, and impurity related deterioration. We have studied by means of density functional theory the possibility of oxygen adsorption on the C-60 molecular moiety of PCBM. The aim is to provide guidelines for near edge X-ray absorption fine structure (NEXAFS) and X-ray photoelectron spectroscopy (XPS) measurements which can probe the presence of atomic or molecular oxygen on the fullerene cage. By analysing several configurations of PCBM with one or more adsorbed oxygen atoms, we show that a joint core level XPS and O1s NEXAFS investigation could be effectively used not only to confirm oxygen adsorption but also to pinpoint the bonding configuration and the nature of the adsorbate. more...

Published
2015
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29. Vertical and lateral morphology effects on solar cell performance for a thiophene–quinoxaline copolymer:PC70BM blend

Author

Hansson, Rickard, Ericsson, Leif K.E., Holmes, Natalie P., Rysz, Jakub, Opitz, Andreas, Campoy-Quiles, Mariano, Wang, Ergang, Barr, Matthew G., Kilcoyne, A. L. David, Zhou, Xiaojing, Dastoor, Paul, Moons, Ellen, Hansson, Rickard, Ericsson, Leif K.E., Holmes, Natalie P., Rysz, Jakub, Opitz, Andreas, Campoy-Quiles, Mariano, Wang, Ergang, Barr, Matthew G., Kilcoyne, A. L. David, Zhou, Xiaojing, Dastoor, Paul, and Moons, Ellen more...

Published
2015
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31. Vertical and lateral morphology effects on solar cell performance for a thiophene-quinoxaline copolymer:PC70BM blend

Author

Swedish Research Council, Göran Gustafsson Foundation, Ministerio de Economía y Competitividad (España), CSIC - Unidad de Recursos de Información Científica para la Investigación (URICI), Hansson, Rickard, Campoy Quiles, Mariano, Moons, Ellen, Swedish Research Council, Göran Gustafsson Foundation, Ministerio de Economía y Competitividad (España), CSIC - Unidad de Recursos de Información Científica para la Investigación (URICI), Hansson, Rickard, Campoy Quiles, Mariano, and Moons, Ellen more...

Abstract

The distribution of electron donor and acceptor in the active layer is known to strongly influence the electrical performance of polymer solar cells for most of the high performance polymer:fullerene systems. The formulation of the solution from which the active layer is spincoated plays an important role in the quest for morphology control. We have studied how the choice of solvent and the use of small amounts of a low vapour pressure additive in the coating solution influence the film morphology and the solar cell performance for blends of poly[2,3-bis-(3-octyloxyphenyl)quinoxaline-5,8-diyl-alt-thiophene-2,5-diyl] (TQ1) and [6,6]-phenyl C71-butyric acid methyl ester (PC70BM). We have investigated the lateral morphology using atomic force microscopy (AFM) and scanning transmission X-ray microscopy (STXM), the vertical morphology using dynamic secondary ion mass spectrometry (d-SIMS) and variable-angle spectroscopic ellipsometry (VASE), and the surface composition using near-edge X-ray absorption fine structure (NEXAFS). The lateral phase-separated domains observed in films spincoated from single solvents, increase in size with increasing solvent vapour pressure and decreasing PC70BM solubility, but are not observed when 1-chloronaphthalene (CN) is added. A strongly TQ1-enriched surface layer is formed in all TQ1:PC70BM blend films and rationalized by surface energy differences. The photocurrent and power conversion efficiency strongly increased upon the addition of CN, while the leakage current decreased by one to two orders of magnitude. The higher photocurrent correlates with the finer lateral structure and stronger TQ1-enrichment at the interface with the electron-collecting electrode. This indicates that the charge transport and collection are not hindered by this polymer-enriched surface layer. Neither the open-circuit voltage nor the series resistance of the devices are sensitive to the differences in morphology. © 2015 The Royal Society of Chemistry. more...

Published
2015

34. Vertical and lateral morphology effects on solar cell performance for a thiophene–quinoxaline copolymer:PC70BM blend

Author

Hansson, Rickard, primary, Ericsson, Leif K. E., additional, Holmes, Natalie P., additional, Rysz, Jakub, additional, Opitz, Andreas, additional, Campoy-Quiles, Mariano, additional, Wang, Ergang, additional, Barr, Matthew G., additional, Kilcoyne, A. L. David, additional, Zhou, Xiaojing, additional, Dastoor, Paul, additional, and Moons, Ellen, additional more...

Published
2015
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35. Voc from a Morphology Point of View : the Influence of Molecular Orientation on the Open Circuit Voltage of Organic Planar Heterojunction Solar Cells

Author

Hörmann, Ulrich, Lorch, Christopher, Hinderhofer, Alexander, Gerlach, Alexander, Gruber, Mark, Kraus, Julia, Sykora, Benedikt, Grob, Stefan, Linderl, Theresa, Wilke, Andreas, Opitz, Andreas, Hansson, Rickard, Anselmo, Ana Sofia, Ozawa, Yusuke, Nakayama, Yasuo, Ishii, Hisao, Koch, Norbert, Moons, Ellen, Schreiber, Frank, Brütting, Wolfgang, Hörmann, Ulrich, Lorch, Christopher, Hinderhofer, Alexander, Gerlach, Alexander, Gruber, Mark, Kraus, Julia, Sykora, Benedikt, Grob, Stefan, Linderl, Theresa, Wilke, Andreas, Opitz, Andreas, Hansson, Rickard, Anselmo, Ana Sofia, Ozawa, Yusuke, Nakayama, Yasuo, Ishii, Hisao, Koch, Norbert, Moons, Ellen, Schreiber, Frank, and Brütting, Wolfgang more...

Abstract

publication date: October 27, 2014

Published
2014
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36. Parallell utveckling av en- och flerspelarläge i spel : En strävan efter separation

Author

Hansson, Rickard, Lindau, Emil, Hansson, Rickard, and Lindau, Emil

Abstract

Denna uppsats behandlar frågeställningen “Hur underlättar man en parallell utveckling av en- samt flerspelar-funktionalitet i ett spel?”. Anledningen till frågeställningen är att en separation mellan de två lägena, tror vi, får en positiv inverkan på agilitet i mjukvaruutvecklingsprojekt inriktat mot spel, något som spelutvecklingsföretagen och utvecklare historiskt sett haft problem med. Samtidigt som en separation av funktionaliteten delar de olika kunskapsområden (spellogik och nätverk) så att rätt person kan arbeta med rätt sak. Målet med denna uppsats är att försöka bana väg för vidare forskning snarare än att helt lösa problemet. Problemet har studerats genom att applicera aktionsforskning vilket praktiskt har lett till en iterativ process som resulterat i en potentiell lösning vilket på veckovis basis reflekterats över samt förbättrats. I rapporten beskriver vi en lösning i form av en mjukvarudesign och regler att förhålla sig till, samt erfarenheter vi har erhållit under arbetets gång., This paper addresses the question formulation “How does one aid a parallel development of singleplayer and multiplayer in game development?” The reasoning behind is that we believe a separation between the two achieves a greater agility in software development minded towards games. Something that the industry and developers alike historically have struggled and had problems with. At the same time a separation of functionality divides the different areas of expertise (game logic and network) so that the right person can focus on the right thing in a development cycle. The contribution to the scarce research in the general area computer science more narrowly and specific, game development research is mainly to pave the way for further research. The problem has been tackled through Action Research, meaning the use of practical development iterated towards a potential solution, and on a weekly basis considered the solution and made improvements and adjustments on it. This paper describes a solution in form of a software design and a couple of rules to relate to as well as the experience we obtained throughout this project. more...

Published
2014

37. Voc from a Morphology Point of View: the Influence of Molecular Orientation on the Open Circuit Voltage of Organic Planar Heterojunction Solar Cells

Author

Hörmann, Ulrich, primary, Lorch, Christopher, additional, Hinderhofer, Alexander, additional, Gerlach, Alexander, additional, Gruber, Mark, additional, Kraus, Julia, additional, Sykora, Benedikt, additional, Grob, Stefan, additional, Linderl, Theresa, additional, Wilke, Andreas, additional, Opitz, Andreas, additional, Hansson, Rickard, additional, Anselmo, Ana Sofia, additional, Ozawa, Yusuke, additional, Nakayama, Yasuo, additional, Ishii, Hisao, additional, Koch, Norbert, additional, Moons, Ellen, additional, Schreiber, Frank, additional, and Brütting, Wolfgang, additional more...

Published
2014
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39. Vertical and lateral morphology effects on solar cell performance for a thiophene–quinoxaline copolymer:PC70BM blend.

Author

Hansson, Rickard, Ericsson, Leif K. E., Moons, Ellen, Holmes, Natalie P., Barr, Matthew G., Zhou, Xiaojing, Dastoor, Paul, Rysz, Jakub, Opitz, Andreas, Campoy-Quiles, Mariano, Wang, Ergang, and Kilcoyne, A. L. David more...

Abstract

The distribution of electron donor and acceptor in the active layer is known to strongly influence the electrical performance of polymer solar cells for most of the high performance polymer:fullerene systems. The formulation of the solution from which the active layer is spincoated plays an important role in the quest for morphology control. We have studied how the choice of solvent and the use of small amounts of a low vapour pressure additive in the coating solution influence the film morphology and the solar cell performance for blends of poly[2,3-bis-(3-octyloxyphenyl)quinoxaline-5,8-diyl-alt-thiophene-2,5-diyl] (TQ1) and [6,6]-phenyl C71-butyric acid methyl ester (PC70BM). We have investigated the lateral morphology using atomic force microscopy (AFM) and scanning transmission X-ray microscopy (STXM), the vertical morphology using dynamic secondary ion mass spectrometry (d-SIMS) and variable-angle spectroscopic ellipsometry (VASE), and the surface composition using near-edge X-ray absorption fine structure (NEXAFS). The lateral phase-separated domains observed in films spincoated from single solvents, increase in size with increasing solvent vapour pressure and decreasing PC70BM solubility, but are not observed when 1-chloronaphthalene (CN) is added. A strongly TQ1-enriched surface layer is formed in all TQ1:PC70BM blend films and rationalized by surface energy differences. The photocurrent and power conversion efficiency strongly increased upon the addition of CN, while the leakage current decreased by one to two orders of magnitude. The higher photocurrent correlates with the finer lateral structure and stronger TQ1-enrichment at the interface with the electron-collecting electrode. This indicates that the charge transport and collection are not hindered by this polymer-enriched surface layer. Neither the open-circuit voltage nor the series resistance of the devices are sensitive to the differences in morphology. [ABSTRACT FROM AUTHOR] more...

Published
2015
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41. Vocfrom a Morphology Point of View: the Influence of Molecular Orientation on the Open Circuit Voltage of Organic Planar Heterojunction Solar Cells

Author

Hörmann, Ulrich, Lorch, Christopher, Hinderhofer, Alexander, Gerlach, Alexander, Gruber, Mark, Kraus, Julia, Sykora, Benedikt, Grob, Stefan, Linderl, Theresa, Wilke, Andreas, Opitz, Andreas, Hansson, Rickard, Anselmo, Ana Sofia, Ozawa, Yusuke, Nakayama, Yasuo, Ishii, Hisao, Koch, Norbert, Moons, Ellen, Schreiber, Frank, and Brütting, Wolfgang more...

Abstract

The film morphology and device performance of planar heterojunction solar cells based on the molecular donor material α-sexithiophene (6T) are investigated. Planar heterojunctions of 6T with two different acceptor molecules, the C60fullerene and diindenoperylene (DIP), have been prepared. The growth temperature of the 6T bottom layer has been varied between room temperature and 100 °C for each acceptor. By means of X-ray diffraction and X-ray absorption, we show that the crystallinity and the molecular orientation of 6T is influenced by the preparation conditions and that the 6T film templates the growth of the subsequent acceptor layer. These structural changes are accompanied by changes in the characteristic parameters of the corresponding photovoltaic cells. This is most prominently observed as a shift of the open circuit voltage (Voc): In the case of 6T/C60heterojunctions, Vocdecreases from 0.4 to 0.3 V, approximately, if the growth temperature of 6T is increased from room temperature to 100 °C. By contrast, Vocincreases from about 1.2 V to almost 1.4 V in the case of 6T/DIP solar cells under the same conditions. We attribute these changes upon substrate heating to increased recombination in the C60case while an orientation dependent intermolecular coupling seems to change the origin of the photovoltaic gap in the DIP case. more...

Published
2014
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42. Spectroscopy of photo-oxidized PC60BM

Author

Ericsson, Leif, Brumboiu, Iulia Emilia, Blazinic, Vanja, Hansson, Rickard, Lindqvist, Camilla, Brena, Barbara, Moons, Ellen, Ericsson, Leif, Brumboiu, Iulia Emilia, Blazinic, Vanja, Hansson, Rickard, Lindqvist, Camilla, Brena, Barbara, and Moons, Ellen more...

44. Photooxidation of PC 60 BM: new insights from spectroscopy.

Author

Brumboiu IE, Ericsson LKE, Blazinic V, Hansson R, Opitz A, Brena B, and Moons E

Subjects
Photoelectron Spectroscopy, Adsorption, Oxygen chemistry, X-Rays, Fullerenes
Abstract

This joint experimental-theoretical spectroscopy study of the fullerene derivative PC 60 BM ([6,6]-phenyl-C 60 -butyric acid methyl ester) aims to improve the understanding of the effect of photooxidation on its electronic structure. We have studied spin-coated thin films of PC 60 BM by X-ray Photoelectron Spectroscopy (XPS), Near-edge X-ray Absorption Fine Structure (NEXAFS) spectroscopy, and Fourier Transform Infrared Spectroscopy (FTIR), before and after intentional exposure to simulated sunlight in air for different lengths of time. The π* resonance in the C1s NEXAFS spectrum was found to be a very sensitive probe for the early changes to the fullerene cage, while FTIR spectra, in combination with O1s NEXAFS spectra, enabled the identification of the oxidation products. The changes observed in the spectra obtained by these complementary methods were compared with the corresponding Density Functional Theory (DFT) calculated single-molecule spectra of a large set of in silico generated oxidation products of PC 60 BM where oxygen atoms were attached to the C 60 cage. This comparison confirms that photooxidation of PC 60 BM disrupts the conjugation of the fullerene cage by a transition from sp 2 to sp 3 -hybridized carbon and causes the formation of several oxidation products, earlier proposed for C 60 . The agreement between experimental and calculated IR spectra suggests moreover the presence of dicarbonyl and anhydride structures on the fullerene cage, in combination with cage opening at the adsorption site. By including PC 60 BM with physisorbed O 2 molecules on the cage in our theoretical description in order to model oxygen diffused through the film, the experimental O1s XPS and O1s NEXAFS spectra could be reproduced. more...

Published
2022
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45. Impact of intentional photo-oxidation of a donor polymer and PC 70 BM on solar cell performance.

Author

Blazinic V, Ericsson LKE, Levine I, Hansson R, Opitz A, and Moons E

Abstract

A short lifetime is the main factor hindering the wider implementation of low-cost organic photovoltaics in large-area and outdoor applications. Ingress of oxygen and water vapour through non-ideal encapsulation layers is a known cause of degradation for polymer/fullerene based solar cells. To better understand the origin of this performance degradation, we study the effect of intentional exposure of the photo-active layer to simulated sunlight (AM1.5) in air both on the solar cell performance and on the molecular semiconductor materials. Cathode-free thin films of a blend of the electron donor polymer poly[2,3-bis-(3-octyloxyphenyl)quinoxaline-5,8-diyl-alt-thiophene-2,5-diyl] (TQ1) and the electron acceptor fullerene derivative [6,6]-phenyl-C 70 -butyric acid methyl ester (PC 70 BM) were exposed to simulated sunlight in air. Fourier-transform infrared spectra demonstrate the formation of carbonyl photo-oxidation products in the blend films, as well as in the pristine polymer and fullerene films. Solar cells prepared with photo-oxidized active layers show increasingly degraded electrical performance (lower short circuit current, open circuit voltage and fill factor) with increasing exposure time. The increased diode ideality factor indicates that trap-assisted recombination hinders device operation after exposure. The external quantum efficiency decreases drastically with increasing exposure time over the whole photon energy range, while the UV-vis absorption spectra of the blend films only show a mild photo-induced bleaching. This demonstrates that not only the photo-induced degradation of the solar cell performance is not predominantly caused by the loss in light absorption, but charge transport and collection are also hampered. This is explained by the fact that photo-oxidation of PC 70 BM causes bonds in its conjugated cage to break, as evidenced by the decreased π* intensity in C1s-NEXAFS spectra of PC 70 BM films. This degradation of unoccupied states of PC 70 BM will hinder the transport of photo-generated electrons to the electrode. Surface photovoltage spectroscopy gives direct evidence for gap states at the surface of a PC 70 BM film, formed after 2 hours of exposure and resulting in upward band bending at the PC 70 BM/air surface. These observations indicate that the photo-oxidation of PC 70 BM is likely to be the main cause of the performance degradation observed when the photoactive layer of a TQ1:PC 70 BM solar cell is intentionally exposed to light in air. more...

Published
2019
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