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Avoiding Photoinduced Shunts in Organic Solar Cells by the Use of Tin Oxide (SnOx) as Electron Extraction Material Instead of ZnO

Avoiding Photoinduced Shunts in Organic Solar Cells by the Use of Tin Oxide (SnOx) as Electron... COMMUNICATION www.advenergymat.de www.MaterialsViews.com Avoiding Photoinduced Shunts in Organic Solar Cells by the Use of Tin Oxide (SnO ) as Electron Extraction Material Instead of ZnO Sara Trost , Tim Becker , Andreas Polywka , Patrick Görrn , Marek F. Oszajca , Norman A. Luechinger , Detlef Rogalla , Mirko Weidner , Philip Reckers , Thomas Mayer , and Thomas Riedl * After about three decades of progress, organic solar cells (OSCs) low fi ll-factors (FFs) and overall low power conversion effi - [ 1 ] have reached a device effi ciency close to 12%. Aside from the ciency are found. This phenomenon is frequently referred to [ 31,32 ] development of novel photoactive organic absorbers, interfacial as “light-soaking” issue. Development of charge extraction materials are essential building blocks to unlock higher effi - materials that do not rely on UV activation has been identi- [ 2–9 ] ciency levels and to further progress on device lifetime. Ded- fi ed to be of paramount importance to achieve highly effi cient [ 33,34 ] icated interlayers that help to align the electronic levels of the and long-term stable devices. In this sense, doped metal- [ 31,35,36 ] electrodes with the transport http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Advanced Energy Materials Wiley

Avoiding Photoinduced Shunts in Organic Solar Cells by the Use of Tin Oxide (SnOx) as Electron Extraction Material Instead of ZnO

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References (61)

Publisher
Wiley
Copyright
Copyright © 2016 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim
ISSN
1614-6832
eISSN
1614-6840
DOI
10.1002/aenm.201600347
Publisher site
See Article on Publisher Site

Abstract

COMMUNICATION www.advenergymat.de www.MaterialsViews.com Avoiding Photoinduced Shunts in Organic Solar Cells by the Use of Tin Oxide (SnO ) as Electron Extraction Material Instead of ZnO Sara Trost , Tim Becker , Andreas Polywka , Patrick Görrn , Marek F. Oszajca , Norman A. Luechinger , Detlef Rogalla , Mirko Weidner , Philip Reckers , Thomas Mayer , and Thomas Riedl * After about three decades of progress, organic solar cells (OSCs) low fi ll-factors (FFs) and overall low power conversion effi - [ 1 ] have reached a device effi ciency close to 12%. Aside from the ciency are found. This phenomenon is frequently referred to [ 31,32 ] development of novel photoactive organic absorbers, interfacial as “light-soaking” issue. Development of charge extraction materials are essential building blocks to unlock higher effi - materials that do not rely on UV activation has been identi- [ 2–9 ] ciency levels and to further progress on device lifetime. Ded- fi ed to be of paramount importance to achieve highly effi cient [ 33,34 ] icated interlayers that help to align the electronic levels of the and long-term stable devices. In this sense, doped metal- [ 31,35,36 ] electrodes with the transport

Journal

Advanced Energy MaterialsWiley

Published: Aug 1, 2016

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