Bragg stacks enhancing upconversion for photovoltaics: a theoretical and experimental analysis

Clarissa L. M. Hofmann; Clarissa L. M. Hofmann; Stefan Fischer; Christian Reitz; Andrew Mondon; Dmitry Busko; Ian Howard; Bryce S. Richards; Bryce S. Richards; Jan Christoph Goldschmidt

doi:10.1364/PV.2016.PTh4A.5

Light, Energy and the Environment
OSA Technical Digest (online) (Optica Publishing Group, 2016),
paper PTh4A.5
•https://doi.org/10.1364/PV.2016.PTh4A.5

Bragg stacks enhancing upconversion for photovoltaics: a theoretical and experimental analysis

Clarissa L. M. Hofmann, Stefan Fischer, Christian Reitz, Andrew Mondon, Dmitry Busko, Ian Howard, Bryce S. Richards, and Jan Christoph Goldschmidt

Optical Nanostructures and Advanced Materials for Photovoltaics 2016

Leipzig Germany
14–17 November 2016
ISBN: 978-0-9600380-4-6

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Novel Fabrication Methods and Applications (PTh4A)

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C. L. M. Hofmann, S. Fischer, C. Reitz, A. Mondon, D. Busko, I. Howard, B. S. Richards, and J. C. Goldschmidt, "Bragg stacks enhancing upconversion for photovoltaics: a theoretical and experimental analysis," in Light, Energy and the Environment, OSA Technical Digest (online) (Optica Publishing Group, 2016), paper PTh4A.5.

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Abstract

To enhance upconversion, we optimize Bragg stacks considering changes of local field, density of states and dynamics of β-NaYF₄:Er³⁺. We experimentally characterize the impact on upconversion luminescence, spectrally resolved and power-dependent.

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