Modelling and experimental analysis of the angular distribution of the emitted light from the edge of luminescent solar concentrators
Modelling and experimental analysis of the angular distribution of the emitted light from the edge of luminescent solar concentrators
Luminescent solar concentrators (LSCs) have the potential to provide cheap solar electricity by significantly reducing the solar cell area. However, these devices are still at the research level and several aspects of their behaviour need investigation in order to improve efficiencies. Understanding how light is absorbed/emitted and concentrated to the edge of LSCs is required to design a high efficiency device as well as identifying and overcoming the various losses present. One strategy for investigating the photon absorption and transport in LSCs as well as pinpointing the sources of losses in these devices is to look at the luminescence escaping the LSC as a function of angle. This paper presents a new model that reveals the main features of the angular distribution of light escaping a LSC edge. We compare this model with experimental measurements and provide an assessment of non-ideal losses and identify which emission angles are affected most by these losses. We investigated experimentally the effects of the absorption profile of the chromophores and re-absorption on the photon flux travelling at different angles. The effect of back surface reflectors, commonly used to ‘recycle lost photons’, on the edge emission of LSCs has also been investigated in this work
luminescent solar concentrators, angle resolved emission, re-absorption, solar cells
532-537
Parel, T.S.
e3d30aca-35bb-4360-b046-0b035c85e7df
Pistolas, C.
79cc31b5-3803-440b-ab55-c35be240f154
Danos, L.
3b7264b2-e5d7-433c-9546-6ae3f4825012
Markvart, T.
f21e82ec-4e3b-4485-9f27-ffc0102fdf1c
April 2015
Parel, T.S.
e3d30aca-35bb-4360-b046-0b035c85e7df
Pistolas, C.
79cc31b5-3803-440b-ab55-c35be240f154
Danos, L.
3b7264b2-e5d7-433c-9546-6ae3f4825012
Markvart, T.
f21e82ec-4e3b-4485-9f27-ffc0102fdf1c
Parel, T.S., Pistolas, C., Danos, L. and Markvart, T.
(2015)
Modelling and experimental analysis of the angular distribution of the emitted light from the edge of luminescent solar concentrators.
Optical Materials, 42, .
(doi:10.1016/j.optmat.2015.02.011).
Abstract
Luminescent solar concentrators (LSCs) have the potential to provide cheap solar electricity by significantly reducing the solar cell area. However, these devices are still at the research level and several aspects of their behaviour need investigation in order to improve efficiencies. Understanding how light is absorbed/emitted and concentrated to the edge of LSCs is required to design a high efficiency device as well as identifying and overcoming the various losses present. One strategy for investigating the photon absorption and transport in LSCs as well as pinpointing the sources of losses in these devices is to look at the luminescence escaping the LSC as a function of angle. This paper presents a new model that reveals the main features of the angular distribution of light escaping a LSC edge. We compare this model with experimental measurements and provide an assessment of non-ideal losses and identify which emission angles are affected most by these losses. We investigated experimentally the effects of the absorption profile of the chromophores and re-absorption on the photon flux travelling at different angles. The effect of back surface reflectors, commonly used to ‘recycle lost photons’, on the edge emission of LSCs has also been investigated in this work
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Manuscript_correctedv2.pdf
- Accepted Manuscript
More information
Accepted/In Press date: 4 February 2015
e-pub ahead of print date: 26 February 2015
Published date: April 2015
Keywords:
luminescent solar concentrators, angle resolved emission, re-absorption, solar cells
Organisations:
Engineering Science Unit
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Local EPrints ID: 381116
URI: http://eprints.soton.ac.uk/id/eprint/381116
PURE UUID: 246ece5a-d085-4f5e-af76-293c0637c165
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Date deposited: 25 Sep 2015 09:06
Last modified: 15 Mar 2024 05:21
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Author:
T.S. Parel
Author:
C. Pistolas
Author:
L. Danos
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