An Americium‐Containing Metal–Organic Framework: A Platform for Studying Transplutonium Elements

The synthesis, structure, and spectroscopic characterization of the first transplutonium metal–organic framework (MOF) is described. The preparation and structure of Am‐GWMOF‐6, [Am2(C6H8O4)3(H2O)2][(C10H8N2)], is analogous to that of the isostructural trivalent lanthanide‐only containing material G...

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Published inAngewandte Chemie (International ed.) Vol. 58; no. 46; pp. 16508 - 16511
Main Authors Ridenour, J. August, Surbella, Robert G., Gelis, Artem V., Koury, Daniel, Poineau, Frederic, Czerwinski, Kenneth R., Cahill, Christopher L.
Format Journal Article
LanguageEnglish
Published Germany Wiley Subscription Services, Inc 11.11.2019
Wiley Blackwell (John Wiley & Sons)
EditionInternational ed. in English
Subjects
Actinides
Americium
Irradiation
luminescence
Metal-organic frameworks
Metals
Organic chemistry
Radiation
Structural analysis
transplutonium
X-ray diffraction
X-ray diffraction
transplutonium
luminescence
americium
metal-organic frameworks
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Abstract The synthesis, structure, and spectroscopic characterization of the first transplutonium metal–organic framework (MOF) is described. The preparation and structure of Am‐GWMOF‐6, [Am2(C6H8O4)3(H2O)2][(C10H8N2)], is analogous to that of the isostructural trivalent lanthanide‐only containing material GWMOF‐6. The presented MOF architecture is used as a platform to probe Am3+ coordination chemistry and guest‐enhanced luminescent emission, whereas the framework itself provides a means to monitor the effects of self‐irradiation upon crystallinity over time. Presented here is a discussion of these properties and the opportunities that MOFs provide in the structural and spectroscopic study of actinides. The first transplutonium metal–organic framework (MOF), containing the trivalent actinide americium ([Am2(C6H8O4)3(H2O)2]⋅(C10H8N2)), is presented as Am‐GWMOF‐6, a structurally analogous compound to that of the trivalent lanthanide‐only containing material GWMOF‐6. The presented MOF architecture is used as a platform to probe Am3+ coordination chemistry and guest‐enhanced luminescent emission.
AbstractList The synthesis, structure, and spectroscopic characterization of the first transplutonium metal–organic framework (MOF) is described. The preparation and structure of Am‐GWMOF‐6, [Am2(C6H8O4)3(H2O)2][(C10H8N2)], is analogous to that of the isostructural trivalent lanthanide‐only containing material GWMOF‐6. The presented MOF architecture is used as a platform to probe Am3+ coordination chemistry and guest‐enhanced luminescent emission, whereas the framework itself provides a means to monitor the effects of self‐irradiation upon crystallinity over time. Presented here is a discussion of these properties and the opportunities that MOFs provide in the structural and spectroscopic study of actinides.
Abstract The synthesis, structure, and spectroscopic characterization of the first transplutonium metal–organic framework (MOF) is described. The preparation and structure of Am‐GWMOF‐6, [Am 2 (C 6 H 8 O 4 ) 3 (H 2 O) 2 ][(C 10 H 8 N 2 )], is analogous to that of the isostructural trivalent lanthanide‐only containing material GWMOF‐6. The presented MOF architecture is used as a platform to probe Am 3+ coordination chemistry and guest‐enhanced luminescent emission, whereas the framework itself provides a means to monitor the effects of self‐irradiation upon crystallinity over time. Presented here is a discussion of these properties and the opportunities that MOFs provide in the structural and spectroscopic study of actinides.
The synthesis, structure, and spectroscopic characterization of the first transplutonium metal–organic framework (MOF) is described. The preparation and structure of Am‐GWMOF‐6, [Am2(C6H8O4)3(H2O)2][(C10H8N2)], is analogous to that of the isostructural trivalent lanthanide‐only containing material GWMOF‐6. The presented MOF architecture is used as a platform to probe Am3+ coordination chemistry and guest‐enhanced luminescent emission, whereas the framework itself provides a means to monitor the effects of self‐irradiation upon crystallinity over time. Presented here is a discussion of these properties and the opportunities that MOFs provide in the structural and spectroscopic study of actinides. The first transplutonium metal–organic framework (MOF), containing the trivalent actinide americium ([Am2(C6H8O4)3(H2O)2]⋅(C10H8N2)), is presented as Am‐GWMOF‐6, a structurally analogous compound to that of the trivalent lanthanide‐only containing material GWMOF‐6. The presented MOF architecture is used as a platform to probe Am3+ coordination chemistry and guest‐enhanced luminescent emission.
The synthesis, structure, and spectroscopic characterization of the first transplutonium metal-organic framework (MOF) is described. The preparation and structure of Am-GWMOF-6, [Am (C H O ) (H O) ][(C H N )], is analogous to that of the isostructural trivalent lanthanide-only containing material GWMOF-6. The presented MOF architecture is used as a platform to probe Am coordination chemistry and guest-enhanced luminescent emission, whereas the framework itself provides a means to monitor the effects of self-irradiation upon crystallinity over time. Presented here is a discussion of these properties and the opportunities that MOFs provide in the structural and spectroscopic study of actinides.
Author Koury, Daniel
Surbella, Robert G.
Gelis, Artem V.
Ridenour, J. August
Czerwinski, Kenneth R.
Poineau, Frederic
Cahill, Christopher L.
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Keywords X-ray diffraction
transplutonium
luminescence
americium
metal-organic frameworks
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Snippet The synthesis, structure, and spectroscopic characterization of the first transplutonium metal–organic framework (MOF) is described. The preparation and...
The synthesis, structure, and spectroscopic characterization of the first transplutonium metal-organic framework (MOF) is described. The preparation and...
Abstract The synthesis, structure, and spectroscopic characterization of the first transplutonium metal–organic framework (MOF) is described. The preparation...
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SubjectTerms Actinides
Americium
Irradiation
luminescence
Metal-organic frameworks
Metals
Organic chemistry
Radiation
Structural analysis
transplutonium
X-ray diffraction
Title An Americium‐Containing Metal–Organic Framework: A Platform for Studying Transplutonium Elements
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fanie.201909988
https://www.ncbi.nlm.nih.gov/pubmed/31536176
https://www.proquest.com/docview/2311480064
https://search.proquest.com/docview/2293970137
https://www.osti.gov/biblio/1567890
Volume 58
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