Solar Cell Efficiency Enhancement through Down-Shifting and Up-Converting Layers. -The EPHOCELL Project; Luminescent Downshifting Quantum Yield Measurements

Manus Kennedy ,S Daren ,Mirko Faccini ,J Bistué Guardiola ,Stanislav Baluschev ,Brian Norton ,G Noriega ,Mariacristina Cocca ,Maria Emanuela Errico ,F Tsvetkov ,John Doran ,André Fernando Medeiros Jorge ,J Puigdollers ,C Voz ,Mirella Di Lorenzo ,G Gentile ,M Avella ,Alfred Molina ,David Gutiérrez–Tauste ,Laurent Aubouy ,A Pashov

doi:10.4229/25theupvsec2010-1dv.4.48

Solar Cell Efficiency Enhancement through Down-Shifting and Up-Converting Layers. -The EPHOCELL Project; Luminescent Downshifting Quantum Yield Measurements

Manus Kennedy , S Daren + Show 19 more

https://doi.org/10.4229/25theupvsec2010-1dv.4.48

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Publication Date: Jan 15, 2011

Affiliation: dublin institute of technology, The Abdus Salam International Centre for Theoretical Physics (ICTP), Universitat Politècnica de Catalunya, Autonomous University of Barcelona, University of Montpellier

#Down-shifting #High Luminescent Quantum Yield + Show 8 more

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Abstract

Organic cells and dye-sensitized cells developed to-date have a narrow active absorption range, relative to the spectral range of the available solar resource. Their efficiency could be significantly enhanced through a process of down-shifting (DS) and up-conversion of non-absorbable photons converting them to photons better matching the spectral response of the particular solar cell. The DS molecules must exhibit a large Stokes shift and high luminescent quantum yield when incorporated in the downshifting polymer layer. In this paper, the QY of a downshifting Europium (III) complex in solution is determined using two distinct experimental techniques. The QY is measured for varying concentration and at varying excitation wavelength.

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