Solodovnyk A, Kick C, Osvet A, Egelhaaf HJ, Stern E, Batentschuk M, Forberich K, Brabec C (2016)
Publication Language: English
Publication Status: Published
Publication Type: Conference contribution, Conference Contribution
Publication year: 2016
Publisher: SPIE
Book Volume: 9743
Article Number: 97430G
ISBN: 9781628419788
DOI: 10.1117/12.2211737
Luminescent down-shifting (LDS) is a simple, powerful tool for increasing the range of solar irradiance that can be efficiently utilized by photovoltaic devices. We developed an optical model to simulate the ideal optical properties (absorbance, transmittance, luminescence quantum yield, etc.) of LDS layers for solar cells. We evaluated which quantum efficiencies and which optical densities are necessary to achieve an improvement in solar cell performance. In particular we considered copper indium gallium diselenide (CIGS) devices. Our model relies on experimentally measured data for the transmission and emission spectra as well as for the external quantum efficiency (EQE) of the solar cell. By combining experimental work with this optical model, we aim to propose an environmentally friendly technology for coating thick (300-500 μm), efficient luminescent down-shifting layers. These layers consist of polyvinyl butyral (PVB) and organic UV-converting fluorescent dyes. The absorption coefficients and luminescence quantum yields of the dyes were determined both in a solution of the solvent benzyl alcohol and in the solid polymer layers. This data shows that the dyes retain luminescence quantum yields of approximately 90% after solution-processing. The produced layers were then applied to CIGS solar cells, thereby improving the EQE of the devices in the UV region. At a wavelength of 390 nm, for instance, the EQE increased from 18% to 53%. These values closely agree with the theoretically calculated ones. The proposed technology, thus, provides a pathway toward efficient, fully solutionprocessable encapsulated photovoltaic modules.
APA:
Solodovnyk, A., Kick, C., Osvet, A., Egelhaaf, H.-J., Stern, E., Batentschuk, M.,... Brabec, C. (2016). Computational optimization and solution-processing of thick and efficient luminescent down-shifting layers for photovoltaics. In Proceedings of the Physics, Simulation, and Photonic Engineering of Photovoltaic Devices V. SPIE.
MLA:
Solodovnyk, Anastasiia, et al. "Computational optimization and solution-processing of thick and efficient luminescent down-shifting layers for photovoltaics." Proceedings of the Physics, Simulation, and Photonic Engineering of Photovoltaic Devices V SPIE, 2016.
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