A generic concept to overcome bandgap limitations for designing highly efficient multi-junction photovoltaic cells

Guo F, Li N, Fecher FW, Gasparini N, Ramírez Quiroz CO, Bronnbauer C, Hou Y, Radmilovic VV, Radmilovic VR, Spiecker E, Forberich K, Brabec C (2015)


Publication Status: Published

Publication Type: Journal article, Original article

Publication year: 2015

Journal

Publisher: Nature Publishing Group: Nature Communications

Book Volume: 6

Article Number: 7730

DOI: 10.1038/ncomms8730

Abstract

The multi-junction concept is the most relevant approach to overcome the Shockley-Queisser limit for single-junction photovoltaic cells. The record efficiencies of several types of solar technologies are held by series-connected tandem configurations. However, the stringent current-matching criterion presents primarily a material challenge and permanently requires developing and processing novel semiconductors with desired bandgaps and thicknesses. Here we report a generic concept to alleviate this limitation. By integrating series- and parallel-interconnections into a triple-junction configuration, we find significantly relaxed material selection and current-matching constraints. To illustrate the versatile applicability of the proposed triple-junction concept, organic and organic-inorganic hybrid triple-junction solar cells are constructed by printing methods. High fill factors up to 68% without resistive losses are achieved for both organic and hybrid triple-junction devices. Series/parallel triple-junction cells with organic, as well as perovskite-based subcells may become a key technology to further advance the efficiency roadmap of the existing photovoltaic technologies.

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How to cite

APA:

Guo, F., Li, N., Fecher, F.W., Gasparini, N., Ramírez Quiroz, C.O., Bronnbauer, C.,... Brabec, C. (2015). A generic concept to overcome bandgap limitations for designing highly efficient multi-junction photovoltaic cells. Nature Communications, 6. https://dx.doi.org/10.1038/ncomms8730

MLA:

Guo, Fei, et al. "A generic concept to overcome bandgap limitations for designing highly efficient multi-junction photovoltaic cells." Nature Communications 6 (2015).

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