Brenda Rowan scite author profile

The effects of excitation wavelength on the optical properties (emission spectrum and quantum yield) of a luminescent solar concentrator (LSC) containing a fluorescent organic dye (Lumogen F Rot 305) are studied. Excitation at wavelengths on the long-wavelength edge of the absorption spectrum of the dye results in redshifted emission, but the quantum yield remains constant at 100%. The origin of this effect and its consequences are discussed. The extent of the long-wavelength tail of the absorption spectrum of the dye is determined and the importance in reabsorption losses is shown. The optical efficiencies and photon transport probabilities of LSCs containing either an organic dye or a rare-earth lanthanide complex are compared using ray-tracing simulations and experiment. The optical efficiency is shown to depend strongly on the Stokes shift of the fluorophore. The lanthanide complex, which has a very large Stokes shift, exhibits a higher optical efficiency than the dye (64% cf. 50%), despite its lower quantum yield (86% cf. 100%).

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Measured surface loss from luminescent solar concentrator waveguides

Debije

Verbunt

Rowan³

et al. 2008

Appl. Opt.

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Promising fluorescent dye for solar energy conversion based on a perylene perinone

et al. 2011

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We describe the synthesis of a dye based on a perylene perinone and evaluate its potential as the functional material for use in the luminescent solar concentrator (LSC). The dye extends the absorption wavelength of LSCs using the perylene-based dye Lumogen Red 305 by more than ~50 nm, translating into the collection of potentially 25% more photons at a reasonable fluorescent quantum yield and photostability. When the new perinone is used in a two-waveguide LSC in conjunction with Red 305, the integrated edge emission of the total LSC system may be increased more than 24% when compared to the Red 305 dye alone.

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Brenda Rowan

Advanced Material Concepts for Luminescent Solar Concentrators

Europium complexes with high total photoluminescence quantum yields in solution and in PMMA

Characterization and reduction of reabsorption losses in luminescent solar concentrators

Measured surface loss from luminescent solar concentrator waveguides

Promising fluorescent dye for solar energy conversion based on a perylene perinone

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