Exploring Actinide Materials Through Synchrotron Radiation Techniques

Synchrotron radiation (SR) based techniques have been utilized with increasing frequency in the past decade to explore the brilliant and challenging sciences of actinide‐based materials. This trend is partially driven by the basic needs for multi‐scale actinide speciation and bonding information and...

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Published in	Advanced materials (Weinheim) Vol. 26; no. 46; pp. 7807 - 7848
Main Authors	Shi, Wei-Qun, Yuan, Li-Yong, Wang, Cong-Zhi, Wang, Lin, Mei, Lei, Xiao, Cheng-Liang, Zhang, Li, Li, Zi-Jie, Zhao, Yu-Liang, Chai, Zhi-Fang
Format	Journal Article
Language	English
Published	Germany Blackwell Publishing Ltd 10.12.2014
Subjects	Absorption spectroscopy actinide computational chemistry actinide materials Actinides Actinoid Series Elements - chemistry Diffraction Ionic Liquids - chemistry Materials selection Molecular Dynamics Simulation nuclear energy Oxidation-Reduction Quantum Theory Radioactive Waste Salts - chemistry Scattering Scattering, Small Angle Spectroscopy Synchrotron radiation Synchrotrons X-Ray Absorption Spectroscopy X-Ray Diffraction X-rays actinide materials actinide computational chemistry nuclear energy synchrotron radiation x-ray absorption spectroscopy
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Abstract	Synchrotron radiation (SR) based techniques have been utilized with increasing frequency in the past decade to explore the brilliant and challenging sciences of actinide‐based materials. This trend is partially driven by the basic needs for multi‐scale actinide speciation and bonding information and also the realistic needs for nuclear energy research. In this review, recent research progresses on actinide related materials by means of various SR techniques were selectively highlighted and summarized, with the emphasis on X‐ray absorption spectroscopy, X‐ray diffraction and scattering spectroscopy, which are powerful tools to characterize actinide materials. In addition, advanced SR techniques for exploring future advanced nuclear fuel cycles dealing with actinides are illustrated as well. The rapid development of synchrotron radiation (SR) based techniques offers tremendous opportunities for brilliant and challenging research in actinide‐based materials nowadays. This review addresses recent research progresses in actinide related materials by means of various SR techniques, with emphasis on X‐ray absorption spectroscopy, X‐ray diffraction and scattering spectroscopy.
AbstractList	Synchrotron radiation (SR) based techniques have been utilized with increasing frequency in the past decade to explore the brilliant and challenging sciences of actinide-based materials. This trend is partially driven by the basic needs for multi-scale actinide speciation and bonding information and also the realistic needs for nuclear energy research. In this review, recent research progresses on actinide related materials by means of various SR techniques were selectively highlighted and summarized, with the emphasis on X-ray absorption spectroscopy, X-ray diffraction and scattering spectroscopy, which are powerful tools to characterize actinide materials. In addition, advanced SR techniques for exploring future advanced nuclear fuel cycles dealing with actinides are illustrated as well. Synchrotron radiation (SR) based techniques have been utilized with increasing frequency in the past decade to explore the brilliant and challenging sciences of actinide-based materials. This trend is partially driven by the basic needs for multi-scale actinide speciation and bonding information and also the realistic needs for nuclear energy research. In this review, recent research progresses on actinide related materials by means of various SR techniques were selectively highlighted and summarized, with the emphasis on X-ray absorption spectroscopy, X-ray diffraction and scattering spectroscopy, which are powerful tools to characterize actinide materials. In addition, advanced SR techniques for exploring future advanced nuclear fuel cycles dealing with actinides are illustrated as well. The rapid development of synchrotron radiation (SR) based techniques offers tremendous opportunities for brilliant and challenging research in actinide-based materials nowadays. This review addresses recent research progresses in actinide related materials by means of various SR techniques, with emphasis on X-ray absorption spectroscopy, X-ray diffraction and scattering spectroscopy. Synchrotron radiation (SR) based techniques have been utilized with increasing frequency in the past decade to explore the brilliant and challenging sciences of actinide‐based materials. This trend is partially driven by the basic needs for multi‐scale actinide speciation and bonding information and also the realistic needs for nuclear energy research. In this review, recent research progresses on actinide related materials by means of various SR techniques were selectively highlighted and summarized, with the emphasis on X‐ray absorption spectroscopy, X‐ray diffraction and scattering spectroscopy, which are powerful tools to characterize actinide materials. In addition, advanced SR techniques for exploring future advanced nuclear fuel cycles dealing with actinides are illustrated as well. The rapid development of synchrotron radiation (SR) based techniques offers tremendous opportunities for brilliant and challenging research in actinide‐based materials nowadays. This review addresses recent research progresses in actinide related materials by means of various SR techniques, with emphasis on X‐ray absorption spectroscopy, X‐ray diffraction and scattering spectroscopy. Synchrotron radiation (SR) based techniques have been utilized with increasing frequency in the past decade to explore the brilliant and challenging sciences of actinide-based materials. This trend is partially driven by the basic needs for multi-scale actinide speciation and bonding information and also the realistic needs for nuclear energy research. In this review, recent research progresses on actinide related materials by means of various SR techniques were selectively highlighted and summarized, with the emphasis on X-ray absorption spectroscopy, X-ray diffraction and scattering spectroscopy, which are powerful tools to characterize actinide materials. In addition, advanced SR techniques for exploring future advanced nuclear fuel cycles dealing with actinides are illustrated as well.Synchrotron radiation (SR) based techniques have been utilized with increasing frequency in the past decade to explore the brilliant and challenging sciences of actinide-based materials. This trend is partially driven by the basic needs for multi-scale actinide speciation and bonding information and also the realistic needs for nuclear energy research. In this review, recent research progresses on actinide related materials by means of various SR techniques were selectively highlighted and summarized, with the emphasis on X-ray absorption spectroscopy, X-ray diffraction and scattering spectroscopy, which are powerful tools to characterize actinide materials. In addition, advanced SR techniques for exploring future advanced nuclear fuel cycles dealing with actinides are illustrated as well.
Author	Li, Zi-Jie Mei, Lei Yuan, Li-Yong Zhang, Li Zhao, Yu-Liang Wang, Lin Xiao, Cheng-Liang Chai, Zhi-Fang Shi, Wei-Qun Wang, Cong-Zhi
Author_xml	– sequence: 1 givenname: Wei-Qun surname: Shi fullname: Shi, Wei-Qun email: shiwq@ihep.ac.cn organization: Key Laboratory of Nuclear Radiation and Nuclear Energy Technology, Institute of High Enegy Physics, Chinese Academy of Sciences, 100049, Beijing, China – sequence: 2 givenname: Li-Yong surname: Yuan fullname: Yuan, Li-Yong organization: Key Laboratory of Nuclear Radiation and Nuclear Energy Technology, Institute of High Enegy Physics, Chinese Academy of Sciences, 100049, Beijing, China – sequence: 3 givenname: Cong-Zhi surname: Wang fullname: Wang, Cong-Zhi organization: Key Laboratory of Nuclear Radiation and Nuclear Energy Technology, Institute of High Enegy Physics, Chinese Academy of Sciences, 100049, Beijing, China – sequence: 4 givenname: Lin surname: Wang fullname: Wang, Lin organization: Key Laboratory of Nuclear Radiation and Nuclear Energy Technology, Institute of High Enegy Physics, Chinese Academy of Sciences, 100049, Beijing, China – sequence: 5 givenname: Lei surname: Mei fullname: Mei, Lei organization: Key Laboratory of Nuclear Radiation and Nuclear Energy Technology, Institute of High Enegy Physics, Chinese Academy of Sciences, 100049, Beijing, China – sequence: 6 givenname: Cheng-Liang surname: Xiao fullname: Xiao, Cheng-Liang organization: Key Laboratory of Nuclear Radiation and Nuclear Energy Technology, Institute of High Enegy Physics, Chinese Academy of Sciences, 100049, Beijing, China – sequence: 7 givenname: Li surname: Zhang fullname: Zhang, Li organization: Key Laboratory of Nuclear Radiation and Nuclear Energy Technology, Institute of High Enegy Physics, Chinese Academy of Sciences, 100049, Beijing, China – sequence: 8 givenname: Zi-Jie surname: Li fullname: Li, Zi-Jie organization: Key Laboratory of Nuclear Radiation and Nuclear Energy Technology, Institute of High Enegy Physics, Chinese Academy of Sciences, 100049, Beijing, China – sequence: 9 givenname: Yu-Liang surname: Zhao fullname: Zhao, Yu-Liang organization: Key Laboratory of Nuclear Radiation and Nuclear Energy Technology, Institute of High Enegy Physics, Chinese Academy of Sciences, 100049, Beijing, China – sequence: 10 givenname: Zhi-Fang surname: Chai fullname: Chai, Zhi-Fang email: shiwq@ihep.ac.cn organization: Key Laboratory of Nuclear Radiation and Nuclear Energy Technology, Institute of High Enegy Physics, Chinese Academy of Sciences, 100049, Beijing, China
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Copyright	2014 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
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Keywords	actinide materials actinide computational chemistry nuclear energy synchrotron radiation x-ray absorption spectroscopy
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Snippet	Synchrotron radiation (SR) based techniques have been utilized with increasing frequency in the past decade to explore the brilliant and challenging sciences...
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SubjectTerms	Absorption spectroscopy actinide computational chemistry actinide materials Actinides Actinoid Series Elements - chemistry Diffraction Ionic Liquids - chemistry Materials selection Molecular Dynamics Simulation nuclear energy Oxidation-Reduction Quantum Theory Radioactive Waste Salts - chemistry Scattering Scattering, Small Angle Spectroscopy Synchrotron radiation Synchrotrons X-Ray Absorption Spectroscopy X-Ray Diffraction X-rays
Title	Exploring Actinide Materials Through Synchrotron Radiation Techniques
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