Long-term stabilization of organic solar cells using hydroperoxide decomposers as additives

Vida Turkovic Engmann; Sebastian Engmann; Nikos Tsierkezos; Harald Hoppe; Morten Madsen; Horst-Günter Rubahn; Uwe Ritter; Gerhard Gobsch

doi:10.1007/s00339-016-9758-7

Long-term stabilization of organic solar cells using hydroperoxide decomposers as additives

Vida Turkovic Engmann, Sebastian Engmann, Nikos Tsierkezos, Harald Hoppe, Morten Madsen, Horst-Günter Rubahn, Uwe Ritter, Gerhard Gobsch

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

Stability of organic solar cells (OPV) remains a big problem on the way to their commercialization. Different approaches are being investigated: development of intrinsically more photochemically stable materials, optimization of encapsulation, and implementation of getter and UV blocking layers. In this study, we investigate stabilization of OPV devices using hydroperoxide decomposers as stabilizing additives. A set of five commercially available additives of organophosphorus, organosulfur, Ni chelate, and blocked thiol type are compared, ternary blended into the active layer, under exposure to aging under ISOS-3 degradation conditions. Improvements in long-term performance of OPV devices were observed upon stabilization with Advapak NEO-1120, lifetime was prolonged by a factor of 1.7, and accumulated power generation increased by a factor of 1.4. The stabilizing mechanisms are discussed using spectroscopic and microscopic measurements.

Original language	English
Article number	255
Journal	Applied Physics A
Volume	122
Issue number	3
Pages (from-to)	1-6
ISSN	0947-8396
DOIs	https://doi.org/10.1007/s00339-016-9758-7
Publication status	Published - 1. Mar 2016

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title = "Long-term stabilization of organic solar cells using hydroperoxide decomposers as additives",

abstract = "Stability of organic solar cells (OPV) remains a big problem on the way to their commercialization. Different approaches are being investigated: development of intrinsically more photochemically stable materials, optimization of encapsulation, and implementation of getter and UV blocking layers. In this study, we investigate stabilization of OPV devices using hydroperoxide decomposers as stabilizing additives. A set of five commercially available additives of organophosphorus, organosulfur, Ni chelate, and blocked thiol type are compared, ternary blended into the active layer, under exposure to aging under ISOS-3 degradation conditions. Improvements in long-term performance of OPV devices were observed upon stabilization with Advapak NEO-1120, lifetime was prolonged by a factor of 1.7, and accumulated power generation increased by a factor of 1.4. The stabilizing mechanisms are discussed using spectroscopic and microscopic measurements.",

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AU - Engmann, Vida Turkovic

AU - Engmann, Sebastian

AU - Tsierkezos, Nikos

AU - Hoppe, Harald

AU - Madsen, Morten

AU - Rubahn, Horst-Günter

AU - Ritter, Uwe

AU - Gobsch, Gerhard

PY - 2016/3/1

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N2 - Stability of organic solar cells (OPV) remains a big problem on the way to their commercialization. Different approaches are being investigated: development of intrinsically more photochemically stable materials, optimization of encapsulation, and implementation of getter and UV blocking layers. In this study, we investigate stabilization of OPV devices using hydroperoxide decomposers as stabilizing additives. A set of five commercially available additives of organophosphorus, organosulfur, Ni chelate, and blocked thiol type are compared, ternary blended into the active layer, under exposure to aging under ISOS-3 degradation conditions. Improvements in long-term performance of OPV devices were observed upon stabilization with Advapak NEO-1120, lifetime was prolonged by a factor of 1.7, and accumulated power generation increased by a factor of 1.4. The stabilizing mechanisms are discussed using spectroscopic and microscopic measurements.

AB - Stability of organic solar cells (OPV) remains a big problem on the way to their commercialization. Different approaches are being investigated: development of intrinsically more photochemically stable materials, optimization of encapsulation, and implementation of getter and UV blocking layers. In this study, we investigate stabilization of OPV devices using hydroperoxide decomposers as stabilizing additives. A set of five commercially available additives of organophosphorus, organosulfur, Ni chelate, and blocked thiol type are compared, ternary blended into the active layer, under exposure to aging under ISOS-3 degradation conditions. Improvements in long-term performance of OPV devices were observed upon stabilization with Advapak NEO-1120, lifetime was prolonged by a factor of 1.7, and accumulated power generation increased by a factor of 1.4. The stabilizing mechanisms are discussed using spectroscopic and microscopic measurements.

U2 - 10.1007/s00339-016-9758-7

DO - 10.1007/s00339-016-9758-7

M3 - Journal article

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JO - Applied Physics A

JF - Applied Physics A

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ER -

Long-term stabilization of organic solar cells using hydroperoxide decomposers as additives

Abstract

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