Universal measure of photon collection efficiency of dye luminescent solar concentrators
Universal measure of photon collection efficiency of dye luminescent solar concentrators
Luminescent solar concentrators (LSC) are recently getting attention as promising components for use in building integrated photovoltaics (BIPV). Ongoing efforts to reduce their optical losses result in active search for new luminophores with large Stokes shift in order to reduce the reabsorption probability. Here we present a novel figure of merit for a large group of Gaussian dye luminophores that provides an accurate assessment of optical losses. Our approach originates in simplified analytical solution for spectral overlapping integral of absorption/emission bands and results in assessment of average reabsorption probability. The procedure is then generalized for any Gaussian dye LSC, by considering its basic parameters (Stokes shift, absorbance and size), thus resulting in a simple useful tool for designing practical LSC devices. Calculations are correlated with the experimental results of reabsorption probability obtained by measuring edge fluorescence spectra of various LSCs.
Dzurnak, Branislav
7565caa5-f44d-46f1-94f5-df0c463f572f
Markvart, Tomas
f21e82ec-4e3b-4485-9f27-ffc0102fdf1c
16 November 2022
Dzurnak, Branislav
7565caa5-f44d-46f1-94f5-df0c463f572f
Markvart, Tomas
f21e82ec-4e3b-4485-9f27-ffc0102fdf1c
Dzurnak, Branislav and Markvart, Tomas
(2022)
Universal measure of photon collection efficiency of dye luminescent solar concentrators.
Solar Energy Materials and Solar Cells, 250, [112101].
(doi:10.1016/j.solmat.2022.112101).
Abstract
Luminescent solar concentrators (LSC) are recently getting attention as promising components for use in building integrated photovoltaics (BIPV). Ongoing efforts to reduce their optical losses result in active search for new luminophores with large Stokes shift in order to reduce the reabsorption probability. Here we present a novel figure of merit for a large group of Gaussian dye luminophores that provides an accurate assessment of optical losses. Our approach originates in simplified analytical solution for spectral overlapping integral of absorption/emission bands and results in assessment of average reabsorption probability. The procedure is then generalized for any Gaussian dye LSC, by considering its basic parameters (Stokes shift, absorbance and size), thus resulting in a simple useful tool for designing practical LSC devices. Calculations are correlated with the experimental results of reabsorption probability obtained by measuring edge fluorescence spectra of various LSCs.
Text
SSRN-id4208256
- Accepted Manuscript
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Accepted/In Press date: 1 November 2022
e-pub ahead of print date: 16 November 2022
Published date: 16 November 2022
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Local EPrints ID: 475943
URI: http://eprints.soton.ac.uk/id/eprint/475943
ISSN: 0927-0248
PURE UUID: f18d9f9a-ddc1-4c05-89bf-601025d55df4
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Date deposited: 31 Mar 2023 16:44
Last modified: 16 Nov 2024 05:01
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Author:
Branislav Dzurnak
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