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Triple-halide wide–band gap perovskites with suppressed phase segregation for efficient tandems
by
Yu, Zhengshan J.
, Palmstrom, Axel F.
, Holman, Zachary C.
, van Hest, Maikel F. A. M.
, Boyd, Caleb C.
, Werner, Jérémie
, Luther, Joseph M.
, Xu, Jixian
, Weigand, William
, Witter, Daniel J.
, Wolf, Eli J.
, Berry, Joseph J.
, France, Ryan M.
, Harvey, Steven P.
, McGehee, Michael D.
, Manzoor, Salman
, Larson, Bryon W.
in
Bromine
/ Carrier mobility
/ Chlorine
/ Current carriers
/ Efficiency
/ Electrons
/ Energy conversion efficiency
/ Energy gap
/ Fabrication
/ Halide perovskites
/ Halides
/ Illumination
/ Iodine
/ Luminous intensity
/ MATERIALS SCIENCE
/ Maximum power
/ Metal halides
/ Open circuit voltage
/ Perovskites
/ Photovoltaic cells
/ power conversion efficiency
/ semiconductors
/ Silicon
/ Solar cells
/ SOLAR ENERGY
/ tandem solar cells
2020
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Triple-halide wide–band gap perovskites with suppressed phase segregation for efficient tandems
by
Yu, Zhengshan J.
, Palmstrom, Axel F.
, Holman, Zachary C.
, van Hest, Maikel F. A. M.
, Boyd, Caleb C.
, Werner, Jérémie
, Luther, Joseph M.
, Xu, Jixian
, Weigand, William
, Witter, Daniel J.
, Wolf, Eli J.
, Berry, Joseph J.
, France, Ryan M.
, Harvey, Steven P.
, McGehee, Michael D.
, Manzoor, Salman
, Larson, Bryon W.
in
Bromine
/ Carrier mobility
/ Chlorine
/ Current carriers
/ Efficiency
/ Electrons
/ Energy conversion efficiency
/ Energy gap
/ Fabrication
/ Halide perovskites
/ Halides
/ Illumination
/ Iodine
/ Luminous intensity
/ MATERIALS SCIENCE
/ Maximum power
/ Metal halides
/ Open circuit voltage
/ Perovskites
/ Photovoltaic cells
/ power conversion efficiency
/ semiconductors
/ Silicon
/ Solar cells
/ SOLAR ENERGY
/ tandem solar cells
2020
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Triple-halide wide–band gap perovskites with suppressed phase segregation for efficient tandems
by
Yu, Zhengshan J.
, Palmstrom, Axel F.
, Holman, Zachary C.
, van Hest, Maikel F. A. M.
, Boyd, Caleb C.
, Werner, Jérémie
, Luther, Joseph M.
, Xu, Jixian
, Weigand, William
, Witter, Daniel J.
, Wolf, Eli J.
, Berry, Joseph J.
, France, Ryan M.
, Harvey, Steven P.
, McGehee, Michael D.
, Manzoor, Salman
, Larson, Bryon W.
in
Bromine
/ Carrier mobility
/ Chlorine
/ Current carriers
/ Efficiency
/ Electrons
/ Energy conversion efficiency
/ Energy gap
/ Fabrication
/ Halide perovskites
/ Halides
/ Illumination
/ Iodine
/ Luminous intensity
/ MATERIALS SCIENCE
/ Maximum power
/ Metal halides
/ Open circuit voltage
/ Perovskites
/ Photovoltaic cells
/ power conversion efficiency
/ semiconductors
/ Silicon
/ Solar cells
/ SOLAR ENERGY
/ tandem solar cells
2020
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Triple-halide wide–band gap perovskites with suppressed phase segregation for efficient tandems
Journal Article
Triple-halide wide–band gap perovskites with suppressed phase segregation for efficient tandems
2020
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Overview
Wide–band gap metal halide perovskites are promising semiconductors to pair with silicon in tandem solar cells to pursue the goal of achieving power conversion efficiency (PCE) greater than 30% at low cost. However, wide–band gap perovskite solar cells have been fundamentally limited by photoinduced phase segregation and low open-circuit voltage. We report efficient 1.67–electron volt wide–band gap perovskite top cells using triple-halide alloys (chlorine, bromine, iodine) to tailor the band gap and stabilize the semiconductor under illumination. We show a factor of 2 increase in photocarrier lifetime and charge-carrier mobility that resulted from enhancing the solubility of chlorine by replacing some of the iodine with bromine to shrink the lattice parameter. We observed a suppression of light-induced phase segregation in films even at 100-sun illumination intensity and less than 4% degradation in semitransparent top cells after 1000 hours of maximum power point (MPP) operation at 60°C. By integrating these top cells with silicon bottom cells, we achieved a PCE of 27% in two-terminal monolithic tandems with an area of 1 square centimeter.
Publisher
American Association for the Advancement of Science,The American Association for the Advancement of Science,AAAS
Subject
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