A 2-terminal perovskite/silicon multijunction solar cell enabled by a silicon tunnel junction

Mailoa, Jonathan P.; Bailie, Colin D.; Johlin, Eric; Hoke, Eric T.; Akey, Austin J.; Nguyen, William; McGehee, Michael D.; Buonassisi, Tonio

doi:10.1063/1.4914179

articleApplied Physics LettersMar 23, 2015BRONZE OA

A 2-terminal perovskite/silicon multijunction solar cell enabled by a silicon tunnel junction

JPJonathan P. Mailoa CDColin D. Bailie EJEric Johlin ETEric T. Hoke AJAustin J. Akey

Massachusetts Institute of Technology · Stanford University

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Abstract

With the advent of efficient high-bandgap metal-halide perovskite photovoltaics, an opportunity exists to make perovskite/silicon tandem solar cells. We fabricate a monolithic tandem by developing a silicon-based interband tunnel junction that facilitates majority-carrier charge recombination between the perovskite and silicon sub-cells. We demonstrate a 1 cm2 2-terminal monolithic perovskite/silicon multijunction solar cell with a VOC as high as 1.65 V. We achieve a stable 13.7% power conversion efficiency with the perovskite as the current-limiting sub-cell, and identify key challenges for this device architecture to reach efficiencies over 25%.

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645

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Authors

8

Topics & keywords

Topics

Keywords

Silicon
Perovskite (structure)
Photovoltaics
Optoelectronics
Materials science
Tandem
Energy conversion efficiency
Solar cell

UN Sustainable Development Goals

Affordable and clean energy

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Funding

UD
U.S. Department of Energy
Awards: DE-EE0006707, DE-EE0004946