Porphyrin‐Based Bulk Heterojunction Organic Photovoltaics: The Rise of the Colors of Life
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- Jurgen Kesters
- Design & Synthesis of Organic Semiconductors (DSOS) Institute for Materials Research (IMO‐IMOMEC)Hasselt University Agoralaan 1 – Building D ,3590 Diepenbeek Belgium
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- Pieter Verstappen
- Design & Synthesis of Organic Semiconductors (DSOS) Institute for Materials Research (IMO‐IMOMEC)Hasselt University Agoralaan 1 – Building D ,3590 Diepenbeek Belgium
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- Mathias Kelchtermans
- Design & Synthesis of Organic Semiconductors (DSOS) Institute for Materials Research (IMO‐IMOMEC)Hasselt University Agoralaan 1 – Building D ,3590 Diepenbeek Belgium
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- Laurence Lutsen
- Design & Synthesis of Organic Semiconductors (DSOS) Institute for Materials Research (IMO‐IMOMEC)Hasselt University Agoralaan 1 – Building D ,3590 Diepenbeek Belgium
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- Dirk Vanderzande
- Design & Synthesis of Organic Semiconductors (DSOS) Institute for Materials Research (IMO‐IMOMEC)Hasselt University Agoralaan 1 – Building D ,3590 Diepenbeek Belgium
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- Wouter Maes
- Design & Synthesis of Organic Semiconductors (DSOS) Institute for Materials Research (IMO‐IMOMEC)Hasselt University Agoralaan 1 – Building D ,3590 Diepenbeek Belgium
書誌事項
- 公開日
- 2015-05-05
- 権利情報
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- http://onlinelibrary.wiley.com/termsAndConditions#vor
- DOI
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- 10.1002/aenm.201500218
- 公開者
- Wiley
この論文をさがす
説明
<jats:p>Organic photovoltaics (OPV) represent a thin‐film PV technology that offers attractive prospects for low‐cost and aesthetically appealing (colored, flexible, uniform, semitransparent) solar cells that are printable on large surfaces. In bulk heterojunction (BHJ) OPV devices, organic electron donor and acceptor molecules are intimately mixed within the photoactive layer. Since 2005, the power conversion efficiency of said devices has increased substantially due to insights in the underlying physical processes, device optimization, and chemical engineering of a vast number of novel light‐harvesting organic materials, either small molecules or conjugated polymers. As Nature itself has developed porphyrin chromophores for solar light to energy conversion, it seems reasonable to pursue artificial systems based on the same types of molecules. Porphyrins and their analogues have already been successfully implemented in certain device types, notably in dye‐sensitized solar cells, but they have remained largely unexplored in BHJ organic solar cells. Very recent successes do show, however, the strong (latent) prospects of porphyrinoid semiconductors as light‐harvesting and charge transporting materials in such devices. Here, an overview on the state‐of‐the‐art of porphyrin‐based solution‐processed BHJ OPV is provided and insights are given into the pathways to follow and hurdles to overcome toward further improvements of porphyrinic materials and devices.</jats:p>
収録刊行物
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- Advanced Energy Materials
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Advanced Energy Materials 5 (13), 1500218-, 2015-05-05
Wiley
