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Triple-halide wide-band gap perovskites with suppressed phase segregation for efficient tandems

机译:具有抑制相隔离的三卤化物宽带隙钙钛矿,用于高效串联

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摘要

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 degrees 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.
机译:宽带隙金属卤化物钙钛矿是有前途的半导体,与串联太阳能电池中的硅配对,以追求以低成本实现高于30%的功率转换效率(PCE)。然而,宽带隙钙钛矿太阳能电池由光诱导的相隔离和低开路电压基本限制。我们使用三卤合金(氯,溴,碘)报告高效的1.67 - 电子伏宽带钙钙岩顶部细胞,以定制带隙并在照明下稳定半导体。我们显示出光载体寿命和电荷载流子迁移率的2倍,这使得通过用溴代替换一些碘来增强氯来收缩晶格参数来引起氯的溶解度。我们观察到胶片在薄膜中的光诱导相偏析抑制在100 - 阳光照明强度下,在60摄氏度在60摄氏度的最大功率点(MPP)操作的最大功率点(MPP)操作之后少于4%的降解。通过整合这些顶部电池通过硅底部细胞,我们在双末端整体串联中获得了27%的PCE,面积为1平方厘米。

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  • 来源
    《Science》 |2020年第6482期|1097-1104|共8页
  • 作者

    Xu Jixian; Boyd Caleb C.; Yu Zhengshan J.; Palmstrom Axel F.; Witter Daniel J.; Larson Bryon W.; France Ryan M.; Werner Jeremie; Harvey Steven P.; Wolf Eli J.; Weigand William; Manzoor Salman; van Hest Maikel F. A. M.; Berry Joseph J.; Luther Joseph M.; Holman Zachary C.; McGehee Michael D.;

  • 作者单位

    Univ Colorado Chem & Biol Engn Boulder CO 80309 USA|Natl Renewable Energy Lab Golden CO 80401 USA|Univ Sci & Technol China Dept Mat Sci & Engn CAS Key Lab Mat Energy Convers Hefei 230026 Peoples R China;

    Natl Renewable Energy Lab Golden CO 80401 USA|Stanford Univ Mat Sci & Engn Stanford CA 94305 USA;

    Arizona State Univ Sch Elect Comp & Energy Engn Tempe AZ 85281 USA;

    Natl Renewable Energy Lab Golden CO 80401 USA;

    Univ Colorado Chem & Biol Engn Boulder CO 80309 USA|Natl Renewable Energy Lab Golden CO 80401 USA;

    Natl Renewable Energy Lab Golden CO 80401 USA;

    Natl Renewable Energy Lab Golden CO 80401 USA;

    Univ Colorado Chem & Biol Engn Boulder CO 80309 USA|Natl Renewable Energy Lab Golden CO 80401 USA;

    Natl Renewable Energy Lab Golden CO 80401 USA;

    Natl Renewable Energy Lab Golden CO 80401 USA;

    Arizona State Univ Sch Elect Comp & Energy Engn Tempe AZ 85281 USA;

    Arizona State Univ Sch Elect Comp & Energy Engn Tempe AZ 85281 USA;

    Natl Renewable Energy Lab Golden CO 80401 USA;

    Natl Renewable Energy Lab Golden CO 80401 USA;

    Natl Renewable Energy Lab Golden CO 80401 USA;

    Arizona State Univ Sch Elect Comp & Energy Engn Tempe AZ 85281 USA;

    Univ Colorado Chem & Biol Engn Boulder CO 80309 USA|Natl Renewable Energy Lab Golden CO 80401 USA|Univ Colorado Mat Sci & Engn Boulder CO 80309 USA;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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  • 正文语种 eng
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  • 入库时间 2022-08-18 22:15:04

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