Bright Photon Upconversion on Composite Organic Lanthanide Molecules through Localized Thermal Radiation

Converting low-energy photons via thermal radiation can be a potential approach for utilizing infrared (IR) photons to improve photovoltaic efficiency. Lanthanide-containing materials have achieved great progress in IR-to-visible photon upconversion (UC). Herein, we first report bright photon, tunab...

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Veröffentlicht in:	The journal of physical chemistry letters 2017-12, Vol.8 (23), p.5695-5699
Hauptverfasser:	Ye, Huanqing, Bogdanov, Viktor, Liu, Sheng, Vajandar, Saumitra, Osipowicz, Thomas, Hernández, Ignacio, Xiong, Qihua
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Sprache:	eng
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container_end_page	5699
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container_title	The journal of physical chemistry letters
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creator	Ye, Huanqing Bogdanov, Viktor Liu, Sheng Vajandar, Saumitra Osipowicz, Thomas Hernández, Ignacio Xiong, Qihua
description	Converting low-energy photons via thermal radiation can be a potential approach for utilizing infrared (IR) photons to improve photovoltaic efficiency. Lanthanide-containing materials have achieved great progress in IR-to-visible photon upconversion (UC). Herein, we first report bright photon, tunable wavelength UC through localized thermal radiation at the molecular scale with low excitation power density (
doi_str_mv	10.1021/acs.jpclett.7b02513
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Lanthanide-containing materials have achieved great progress in IR-to-visible photon upconversion (UC). Herein, we first report bright photon, tunable wavelength UC through localized thermal radiation at the molecular scale with low excitation power density (<10 W/cm2) realized on lanthanide complexes of perfluorinated organic ligands. This is enabled by engineering the pathways of nonradiative de-excitation and energy transfer in a composite of ytterbium and terbium perfluoroimidodiphosphinates. The IR-excited thermal UC and wavelength control is realized through the terbium activators sensitized by the ytterbium sensitizers having high luminescence efficiency. 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title	Bright Photon Upconversion on Composite Organic Lanthanide Molecules through Localized Thermal Radiation
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