Water ingress into and climate dependent lifetime of organic photovoltaic cells investigated by calcium corrosion tests

The degradation of non-encapsulated, small-molecule organic solar cells based on ZnPc (zinc phthalocyanine)/C60 with an aluminum top electrode is investigated under different climate conditions and correlated with the water barrier performance of the aluminum electrode layer. The degradation of the...

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Published inSolar energy materials and solar cells Vol. 120; pp. 685 - 690
Main Authors Klumbies, Hannes, Karl, Markus, Hermenau, Martin, Rösch, Roland, Seeland, Marco, Hoppe, Harald, Müller-Meskamp, Lars, Leo, Karl
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.01.2014
Elsevier
Subjects
Aluminum base alloys
Applied sciences
Barriers
Degradation
Direct energy conversion and energy accumulation
Electrical engineering. Electrical power engineering
Electrical power engineering
Electrodes
Encapsulation
Energy
Exact sciences and technology
Fullerenes
Macro defects
Natural energy
Organic solar cells
Permeation
Photoelectric conversion
Photovoltaic cells
Photovoltaic conversion
Solar cells
Solar cells. Photoelectrochemical cells
Solar energy
Water permeation barrier
Degradation
Encapsulation
Macro defects
Organic solar cells
Water permeation barrier
Water
Performance evaluation
Calcium
Conversion rate
Zinc complex
Electroluminescence
Photovoltaic cell
Optical microscopy
Humidity
Corrosion test
Small molecule
Damaging
Measurement sensor
Permeation
Durability
Aluminium
Imagery
Solar cell
Sensitivity
Corrosion
Metallophthalocyanine
Fullerenes
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Abstract The degradation of non-encapsulated, small-molecule organic solar cells based on ZnPc (zinc phthalocyanine)/C60 with an aluminum top electrode is investigated under different climate conditions and correlated with the water barrier performance of the aluminum electrode layer. The degradation of the solar cells turns out to be dominated by water and can be well predicted by the corrosion of calcium – a sensor for water – under the same conditions. By several independent techniques, an amount of 20±7mg(H2O)m−2 is determined to reduce the solar cell efficiency to 50% of the initial value, independent of humidity and temperature between 20 and 65°C. This experimental value for degradation sensitivity of an organic solar cell allows to translate the encapsulation requirements of the solar cell into a well-defined, objective quantity and allows to predict device lifetimes for different permeation barriers. Furthermore, electroluminescence imaging shows that the degradation is caused solely from a loss of active area caused by water ingress through defects in the aluminum top electrode. For this type of barrier, most of the permeation (>72%) through the aluminum is thus caused by defects with a radius r>0.3µm visible with an optical microscope. Hence, the water ingress through the aluminum top electrode and in turn the lifetime of the organic PV cell can be well predicted by a simple optical inspection. [Display omitted] . •Organic solar cells and calcium sensors protected by same barrier: 100nm aluminum.•Calcium sensors can well predict solar cell lifetime—independent of climate.•20mg(H2O)m² degrade 50% of the active area.•>72% of water ingress occurs through large defects (>0.4µm) in aluminum barrier.•Water ingress is predictable by a simple optical inspection of the aluminum barrier.
AbstractList The degradation of non-encapsulated, small-molecule organic solar cells based on ZnPc (zinc phthalocyanine)/C sub(60) with an aluminum top electrode is investigated under different climate conditions and correlated with the water barrier performance of the aluminum electrode layer. The degradation of the solar cells turns out to be dominated by water and can be well predicted by the corrosion of calcium - a sensor for water - under the same conditions. By several independent techniques, an amount of 20 + or - 7 mg(H sub(2)O) m super(-2) is determined to reduce the solar cell efficiency to 50% of the initial value, independent of humidity and temperature between 20 and 65 [degrees]C. This experimental value for degradation sensitivity of an organic solar cell allows to translate the encapsulation requirements of the solar cell into a well-defined, objective quantity and allows to predict device lifetimes for different permeation barriers. Furthermore, electroluminescence imaging shows that the degradation is caused solely from a loss of active area caused by water ingress through defects in the aluminum top electrode. For this type of barrier, most of the permeation (> 72%) through the aluminum is thus caused by defects with a radius r > 0.3 [mu]m visible with an optical microscope. Hence, the water ingress through the aluminum top electrode and in turn the lifetime of the organic PV cell can be well predicted by a simple optical inspection.
The degradation of non-encapsulated, small-molecule organic solar cells based on ZnPc (zinc phthalocyanine)/C60 with an aluminum top electrode is investigated under different climate conditions and correlated with the water barrier performance of the aluminum electrode layer. The degradation of the solar cells turns out to be dominated by water and can be well predicted by the corrosion of calcium - a sensor for water - under the same conditions. By several independent techniques, an amount of 20 plus or minus 7 mg(H2O) m-2 is determined to reduce the solar cell efficiency to 50% of the initial value, independent of humidity and temperature between 20 and 65 degree C. This experimental value for degradation sensitivity of an organic solar cell allows to translate the encapsulation requirements of the solar cell into a well-defined, objective quantity and allows to predict device lifetimes for different permeation barriers. Furthermore, electroluminescence imaging shows that the degradation is caused solely from a loss of active area caused by water ingress through defects in the aluminum top electrode. For this type of barrier, most of the permeation (>72%) through the aluminum is thus caused by defects with a radius r>0.3 mu m visible with an optical microscope. Hence, the water ingress through the aluminum top electrode and in turn the lifetime of the organic PV cell can be well predicted by a simple optical inspection.
The degradation of non-encapsulated, small-molecule organic solar cells based on ZnPc (zinc phthalocyanine)/C60 with an aluminum top electrode is investigated under different climate conditions and correlated with the water barrier performance of the aluminum electrode layer. The degradation of the solar cells turns out to be dominated by water and can be well predicted by the corrosion of calcium – a sensor for water – under the same conditions. By several independent techniques, an amount of 20±7mg(H2O)m−2 is determined to reduce the solar cell efficiency to 50% of the initial value, independent of humidity and temperature between 20 and 65°C. This experimental value for degradation sensitivity of an organic solar cell allows to translate the encapsulation requirements of the solar cell into a well-defined, objective quantity and allows to predict device lifetimes for different permeation barriers. Furthermore, electroluminescence imaging shows that the degradation is caused solely from a loss of active area caused by water ingress through defects in the aluminum top electrode. For this type of barrier, most of the permeation (>72%) through the aluminum is thus caused by defects with a radius r>0.3µm visible with an optical microscope. Hence, the water ingress through the aluminum top electrode and in turn the lifetime of the organic PV cell can be well predicted by a simple optical inspection. [Display omitted] . •Organic solar cells and calcium sensors protected by same barrier: 100nm aluminum.•Calcium sensors can well predict solar cell lifetime—independent of climate.•20mg(H2O)m² degrade 50% of the active area.•>72% of water ingress occurs through large defects (>0.4µm) in aluminum barrier.•Water ingress is predictable by a simple optical inspection of the aluminum barrier.
Author Hermenau, Martin
Rösch, Roland
Klumbies, Hannes
Hoppe, Harald
Müller-Meskamp, Lars
Karl, Markus
Seeland, Marco
Leo, Karl
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  fullname: Hoppe, Harald
  organization: Institute of Physics, Technische Universität Ilmenau, Weimarer Str. 32, 98693 Ilmenau, Germany
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  givenname: Lars
  surname: Müller-Meskamp
  fullname: Müller-Meskamp, Lars
  organization: Institut für Angewandte Photophysik, Technische Universität Dresden, George-Bähr-Str. 1, 01062 Dresden, Germany
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  givenname: Karl
  surname: Leo
  fullname: Leo, Karl
  organization: Institut für Angewandte Photophysik, Technische Universität Dresden, George-Bähr-Str. 1, 01062 Dresden, Germany
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Keywords Degradation
Encapsulation
Macro defects
Organic solar cells
Water permeation barrier
Water
Performance evaluation
Calcium
Conversion rate
Zinc complex
Electroluminescence
Photovoltaic cell
Optical microscopy
Humidity
Corrosion test
Small molecule
Damaging
Measurement sensor
Permeation
Durability
Aluminium
Imagery
Solar cell
Sensitivity
Corrosion
Metallophthalocyanine
Fullerenes
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Snippet The degradation of non-encapsulated, small-molecule organic solar cells based on ZnPc (zinc phthalocyanine)/C60 with an aluminum top electrode is investigated...
The degradation of non-encapsulated, small-molecule organic solar cells based on ZnPc (zinc phthalocyanine)/C sub(60) with an aluminum top electrode is...
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SubjectTerms Aluminum base alloys
Applied sciences
Barriers
Degradation
Direct energy conversion and energy accumulation
Electrical engineering. Electrical power engineering
Electrical power engineering
Electrodes
Encapsulation
Energy
Exact sciences and technology
Fullerenes
Macro defects
Natural energy
Organic solar cells
Permeation
Photoelectric conversion
Photovoltaic cells
Photovoltaic conversion
Solar cells
Solar cells. Photoelectrochemical cells
Solar energy
Water permeation barrier
Title Water ingress into and climate dependent lifetime of organic photovoltaic cells investigated by calcium corrosion tests
URI https://dx.doi.org/10.1016/j.solmat.2013.10.023
https://search.proquest.com/docview/1520380694
https://search.proquest.com/docview/1534857229
https://search.proquest.com/docview/1642233494
Volume 120
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