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Nano-optical designs for high-efficiency monolithic perovskite–silicon tandem solar cells

by Stolterfoht, Martin , Grischek, Max , Köhnen, Eike , Tockhorn, Philipp , Lang, Felix , Neher, Dieter , Jäger, Klaus , Albrecht, Steve , Rech, Bernd , Li, Jinzhao , Sutter, Johannes , Li, Bor , Shargaieva, Oleksandra , Stannowski, Bernd , Al-Ashouri, Amran , Becker, Christiane , Yoo, Danbi , Schlatmann, Rutger , Cruz, Alexandros , Unger, Eva , Wagner, Philipp

in Buffer layers / Efficiency / Energy conversion efficiency / Fabrication / Film growth / Near infrared radiation / Open circuit voltage / Optimization / Optoelectronics / Perovskites / Photovoltaic cells / Silicon / Solar cells / Thickness / Wavelengths

2022

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Nano-optical designs for high-efficiency monolithic perovskite–silicon tandem solar cells

2022

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2022

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Journal Article

Nano-optical designs for high-efficiency monolithic perovskite–silicon tandem solar cells

Stolterfoht, Martin,

Grischek, Max,

Köhnen, Eike,

Tockhorn, Philipp,

Lang, Felix,

Neher, Dieter,

Jäger, Klaus,

Albrecht, Steve,

Rech, Bernd,

Li, Jinzhao,

Sutter, Johannes,

Li, Bor,

Shargaieva, Oleksandra,

Stannowski, Bernd,

Al-Ashouri, Amran,

Becker, Christiane,

Yoo, Danbi,

Schlatmann, Rutger,

Cruz, Alexandros,

Unger, Eva,

Wagner, Philipp

2022

Overview

Perovskite–silicon tandem solar cells offer the possibility of overcoming the power conversion efficiency limit of conventional silicon solar cells. Various textured tandem devices have been presented aiming at improved optical performance, but optimizing film growth on surface-textured wafers remains challenging. Here we present perovskite–silicon tandem solar cells with periodic nanotextures that offer various advantages without compromising the material quality of solution-processed perovskite layers. We show a reduction in reflection losses in comparison to planar tandems, with the new devices being less sensitive to deviations from optimum layer thicknesses. The nanotextures also enable a greatly increased fabrication yield from 50% to 95%. Moreover, the open-circuit voltage is improved by 15 mV due to the enhanced optoelectronic properties of the perovskite top cell. Our optically advanced rear reflector with a dielectric buffer layer results in reduced parasitic absorption at near-infrared wavelengths. As a result, we demonstrate a certified power conversion efficiency of 29.80%.Designing gentle sinusoidal nanotextures enables the realization of high-efficiency perovskite–silicon solar cells

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Publisher

Nature Publishing Group

Subject

Buffer layers

/ Efficiency

/ Energy conversion efficiency

/ Fabrication

/ Film growth

/ Near infrared radiation

/ Open circuit voltage