Tackling self-absorption in luminescent solar concentrators with type-II colloidal quantum dots
Tackling self-absorption in luminescent solar concentrators with type-II colloidal quantum dots
Luminescent solar concentrators are low cost photovoltaic devices, which reduce the amount of necessary semiconductor material per unit area of a solar collector by means of concentration. The device is comprised a thin plastic plate in which luminescent species (fluorophores) have been incorporated. The fluorophores absorb the solar light and radiatively re-emit part of the energy. Total internal reflection traps most of the emitted light inside the plate and wave-guides it to a narrow side facet with a solar cell attached, where conversion into electricity occurs. The efficiency of such devices is as yet rather low, due to several loss mechanisms, of which self-absorption is of high importance. This work demonstrates that type-II semiconductor hetero-nanocrystals may offer a solution to the self-absorption problem in luminescent solar concentrators. (C) 2013 Elsevier B.V. All rights reserved.
- Utrecht University Netherlands
Solar cells, EFFICIENCY, Milieukunde, Quantum dots, Self-absorption, Natuur- en sterrenkunde, FLUORESCENT COLLECTORS, Scheikunde, PERFORMANCE, CDSE NANOCRYSTALS, PHOTOVOLTAICS, Luminescent solar concentrators, Taverne, HETEROSTRUCTURES, SDG 7 - Affordable and Clean Energy, EMISSION, OPTIMIZATION, Semiconductor hetero-nanocrystals, HETERONANOCRYSTALS, ENERGY CONVERSION
Solar cells, EFFICIENCY, Milieukunde, Quantum dots, Self-absorption, Natuur- en sterrenkunde, FLUORESCENT COLLECTORS, Scheikunde, PERFORMANCE, CDSE NANOCRYSTALS, PHOTOVOLTAICS, Luminescent solar concentrators, Taverne, HETEROSTRUCTURES, SDG 7 - Affordable and Clean Energy, EMISSION, OPTIMIZATION, Semiconductor hetero-nanocrystals, HETERONANOCRYSTALS, ENERGY CONVERSION
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