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Last Updated: 18 November 2022

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Ultralong Lifetime of Plasmon‐Excited Electrons Realized in Nonepitaxial/Epitaxial Au@CdS/CsPbBr3 Triple‐Heteronanocrystals

Due to the ability to obtain long-lived plasmon u2010induced hot electrons, a combination of the strong light absorber power of plasmonic metals and superior charge carrier dynamics of halide perovskites is promising for bio-u2010energy conversion due to the possibility of obtaining long-lived plasmons. The resulting Au@CdS/CsPbH3 HNCs, which is several orders of magnitude longer than those described for colloidal plasmonic metalu2010semiconductor systems, show that the resulting Au@CdS/CsPbH3 HNCs are highly long-lived plasmon-u2010 fused charge carriers have a lifetime up to a nanosecond timescale, which is several orders of magnitude longer than those reported for colloidal spectrodoutput: plasmon moodSemicon u2010 developed plasmon u2010-u2010 u2010-u2010emiconu2010 used in spectrrodo s with odi u2010based chromosotu2010-based chromoson plasmonu2010induced charge carriers with chromatomolemicon chromatodsemiconsemiconu2010hexu2010-based on u201-u2010-u2010adoh. Such long-lived carriers extracted from plasmonic antennas can lead to CO2 reduction with a high degree of performance exceeding previously reported CsPbBr3u2010based photocatalysts.

Source link: https://onlinelibrary.wiley.com/doi/10.1002/adma.202207555

* Please keep in mind that all text is summarized by machine, we do not bear any responsibility, and you should always check original source before taking any actions

* Please keep in mind that all text is summarized by machine, we do not bear any responsibility, and you should always check original source before taking any actions