Laminated Monolithic Perovskite/Silicon Tandem Photovoltaics

Roger, Julie; Laufer, Felix; Lambertz, Andreas; Hu, Hang; Farag, Ahmed; Paetzold, Ulrich W.; Schorn, Luisa K.; Ding, Kaining; Duan, Weiyuan; Baumann, Daniel; Heydarian, Minasadat; Feeney, Thomas; Fassl, Paul; Worgull, Matthias

doi:10.1002/aenm.202200961

Journal Article

FZJ-2022-03848

Laminated Monolithic Perovskite/Silicon Tandem Photovoltaics

Roger, J. ; Schorn, L. K. ; Heydarian, M. ; Farag, A. ; Feeney, T. ; Baumann, D. ; Hu, H. ; Laufer, F. ; Duan, W.FZJ* ; Ding, K.FZJ* ; Lambertz, A.FZJ* ; Fassl, P. ; Worgull, M. ; Paetzold, U. W. (Corresponding author)

2022
Wiley-VCH Weinheim

Advanced energy materials 12(27), 2200961 - (2022) [10.1002/aenm.202200961]

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Please use a persistent id in citations: http://hdl.handle.net/2128/32120 doi:10.1002/aenm.202200961

Abstract: Perovskite/silicon tandem photovoltaics have attracted enormous attention in science and technology over recent years. In order to improve the performance and stability of the technology, new materials and processes need to be investigated. However, the established sequential layer deposition methods severely limit the choice of materials and accessible device architectures. In response, a novel lamination process that increases the degree of freedom in processing the top perovskite solar cell (PSC) is proposed. The very first prototypes of laminated monolithic perovskite/silicon tandem solar cells with stable power output efficiencies of up to 20.0% are presented. Moreover, laminated single-junction PSCs are on par with standard sequential layer deposition processed devices in the same architecture. The numerous advantages of the lamination process are highlighted, in particular the opportunities to engineer the perovskite morphology, which leads to a reduction of non-radiative recombination losses and and an enhancement in open-circuit voltage (Voc). Laminated PSCs exhibit improved stability by retaining their initial efficiency after 1-year aging and show good thermal stability under prolonged illumination at 80 °C. This lamination approach enables the research of new architectures for perovskite-based photovoltaics and paves a new route for processing monolithic tandem solar cells even with a scalable lamination process.

Classification:

ddc:050

Contributing Institute(s):

Photovoltaik (IEK-5)

Research Program(s):

1213 - Cell Design and Development (POF4-121) (POF4-121)

Appears in the scientific report 2022

Database coverage:
Medline

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Creative Commons Attribution-NonCommercial CC BY-NC 4.0

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Record created 2022-10-26, last modified 2023-01-23

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