Emergence of Uranium as a Distinct Metal Center for Building Intrinsic X‐ray Scintillators

The combination of high atomic number and high oxidation state in UVI materials gives rise to both high X‐ray attenuation efficiency and intense green luminescence originating from ligand‐to‐metal charge transfer. These two features suggest that UVI materials might act as superior X‐ray scintillator...

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Veröffentlicht in:	Angewandte Chemie (International ed.) 2018-06, Vol.57 (26), p.7883-7887
Hauptverfasser:	Wang, Yaxing, Yin, Xuemiao, Liu, Wei, Xie, Jian, Chen, Junfeng, Silver, Mark A., Sheng, Daopeng, Chen, Lanhua, Diwu, Juan, Liu, Ning, Chai, Zhifang, Albrecht‐Schmitt, Thomas E., Wang, Shuao
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Sprache:	eng
Schlagworte:	Atomic properties Attenuation Charge transfer Inorganic salts Luminescence Luminous intensity Metals metal–organic frameworks Oxidation photoluminescence Radiation tolerance Salts Scintillation counters Uranium Valence X-ray scintillation
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container_title	Angewandte Chemie (International ed.)
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creator	Wang, Yaxing Yin, Xuemiao Liu, Wei Xie, Jian Chen, Junfeng Silver, Mark A. Sheng, Daopeng Chen, Lanhua Diwu, Juan Liu, Ning Chai, Zhifang Albrecht‐Schmitt, Thomas E. Wang, Shuao
description	The combination of high atomic number and high oxidation state in UVI materials gives rise to both high X‐ray attenuation efficiency and intense green luminescence originating from ligand‐to‐metal charge transfer. These two features suggest that UVI materials might act as superior X‐ray scintillators, but this postulate has remained substantially untested. Now the first observation of intense X‐ray scintillation in a uranyl–organic framework (SCU‐9) that is observable by the naked eye is reported. Combining the advantage in minimizing the non‐radiative relaxation during the X‐ray excitation process over those of inorganic salts of uranium, SCU‐9 exhibits a very efficient X‐ray to green light luminescence conversion. The luminescence intensity shows an essentially linear correlation with the received X‐ray intensity, and is comparable with that of commercially available CsI:Tl. SCU‐9 possesses an improved X‐ray attenuation efficiency (E>20 keV) as well as enhanced radiation resistance and decreased hygroscopy compared to CsI:Tl. U are scintillating: The observation of intense X‐ray scintillation in a uranyl‐organic framework is reported. Advances are shown in X‐ray attenuation efficiency (E>20 keV) as well as enhanced radiation resistance and decreased hygroscopy when compared to the commercially available scintillator CsI:Tl.
doi_str_mv	10.1002/anie.201802865
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subjects	Atomic properties Attenuation Charge transfer Inorganic salts Luminescence Luminous intensity Metals metal–organic frameworks Oxidation photoluminescence Radiation tolerance Salts Scintillation counters Uranium Valence X-ray scintillation
title	Emergence of Uranium as a Distinct Metal Center for Building Intrinsic X‐ray Scintillators
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