Ultra-efficient intrinsic-vertical-tunnel-junction structures for next-generation concentrator solar cells

TítuloUltra-efficient intrinsic-vertical-tunnel-junction structures for next-generation concentrator solar cells
AutoresSeoane N., Fernández E.F., Almonacid F., García-Loureiro A.
TipoArtículo de revista
Fonte Progress in photovoltaics, WILEY-BLACKWELL, 2020.
RankProvisionally ranked Q1 in Electronic, Optical and Magnetic Materials by CiteScore 2019
ISSN1099-159X
DOI10.1002/pip.3369
Abstract© 2020 John Wiley & Sons, Ltd. The efficiency of solar cells can be enhanced by increasing the light intensity and/or the number of bandgaps of the structure. However, current solar cells cannot fully exploit these two factors because of various critical drawbacks. Here, we show a novel microscale, that is, side ≈ 0.5 mm, vertical solar cell structure that does not suffer the series resistance and bandgap limitations issues of current devices. The preliminary structures investigated show extreme efficiencies, >40%, at ultrahigh concentration factors of 15 000 suns. In addition, future designs with a better bandgap configuration are expected to deliver cells with efficiencies far above 50% at extreme light intensities. This early design offers a fast and reliable route to push the efficiency towards the maximum solar conversion limit and represents a promising way to develop new-generation ultraefficient and low-cost concentrator photovoltaic systems.
Palabras chaveconcentrator photovoltaics, intrinsic semiconductors, microscaling, ultrahigh light intensities, vertical solar cells