Strukturuntersuchungen an Lanthanidenoxalaten. I. Einkristalluntersuchungen an Neodym(III)‐oxalatdekahydrat und Samarium(III)‐oxalatdekahydrat. Die Elementarzelle von Promethium(III)‐oxalatdekahydrat

Weigel, F.; Ollendorff, W.; Scherer, Viktor; Hagenbruch, R.

doi:10.1002/zaac.19663450114

Cited by 16 publications

(4 citation statements)

References 5 publications

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“…Domain I is encountered for highest temperature and lightest lanthanide ions. In this domain the obtained compounds have general chemical formula [Ln 2 (C 2 O 4 ) 3 (H 2 O) 6 ,4H 2 O] ∞ with Ln = La−Er or Y − . Domain II corresponds to the heaviest lanthanide ions and the highest temperature.…”

Section: Resultsmentioning

confidence: 99%

New Family of Porous Lanthanide-Containing Coordination Polymers: [Ln₂(C₂O₄)₃(H₂O)₆,12H₂O]_∞ with Ln = La−Yb or Y

Kustaryono

Kerbellec

Calvez

et al. 2009

Crystal Growth & Design

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Reactions at low temperature in a mixture benzene/water between dimethyloxalate and a lanthanide chloride lead to a family of 3D-coordination polymers with general chemical formula [Ln2(C2O4)3(H2O)6·12H2O]∞, where Ln = La−Yb (except Pm) or Y. All these compounds are isostructural to the already described [Er2(C2O4)3(H2O)6·12H2O]∞. Their crystal structure can be described as the juxtaposition of channels with hexagonal cross-section. The channels are filled with crystallization water molecules. Their thermal dehydration produces a collapse of the molecular skeleton leading to amorphous compounds. On the opposite, their dehydration by freeze-drying is possible and the twelve crystallization water molecules can be removed without destruction of the molecular skeleton. The porosity of the dehydrated compounds has been estimated by computational methods to 483 m2 g−1. The luminescence properties of the Eu-containing and Tb-containing compounds are also briefly described.

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Section: Resultsmentioning

confidence: 99%

New Family of Porous Lanthanide-Containing Coordination Polymers: [Ln₂(C₂O₄)₃(H₂O)₆,12H₂O]_∞ with Ln = La−Yb or Y

Kustaryono

Kerbellec

Calvez

et al. 2009

Crystal Growth & Design

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“…Dropwise addition of aqueous Am 3þ (pH 4.5) to warm, slightly less than stoichiometric amounts of ammonium benzoylacetone yields pale-rose Am(C 10 H 6 F 3 O 2 ) 3 · 3H 2 O. Both compounds decompose in air at [1] (Asprey et al, , 1951(Asprey et al, , 1954b; [2] (Keller and Schreck, 1969); [3] (Karraker, 1975(Karraker, , 1977; [4] (Baumgärtner et al, 1966a(Baumgärtner et al, , 1977Kanellakopoulos et al, 1970Kanellakopoulos et al, , 1978Seaborg, 1972); [5] (Danford et al, 1970;Moore, 1970;Sakanoue and Amano, 1975); [6] (Lebedev et al, 1960b(Lebedev et al, , 1962); [7] (Burns and Danford, 1969;Danford et al, 1970;Bagnall, 1972;Sakanoue and Amano, 1975); [8] (Davydov et al, 1975); [9] (Keller et al, 1965a(Keller et al, , 1966; [10] (Eyring et al, 1952;Yakovlev and Kosyakov, 1958b;Lebedev et al, 1960a;Weigel et al, 1966;…”

Section: (D) Acetone Derivate Compoundsmentioning

confidence: 99%

Americium

Runde

Schulz

The Chemistry of the Actinide and Transactinide Elements

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“…This valuable information is exceptionally challenging to obtain due to its radioactivity, synthetic nature and lack of availability. Only a few simple inorganic Pm III solids, such as halides 17 , oxide 18 , oxalate 19 , molybdate and tungstate 20 have been prepared and characterized by X-ray powder diffraction to determine the lattice parameters. Furthermore, the absorption bands in the visible spectrum 17 , 21 , 22 , Raman spectra 23 and magnetic susceptibility 24 of the Pm III oxide and halides were reported.…”

Section: Mainmentioning

confidence: 99%

Observation of a promethium complex in solution

Driscoll,

White,

Pramanik

et al. 2024

Nature

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Lanthanide rare-earth metals are ubiquitous in modern technologies1–5, but we know little about chemistry of the 61st element, promethium (Pm)6, a lanthanide that is highly radioactive and inaccessible. Despite its importance7,8, Pm has been conspicuously absent from the experimental studies of lanthanides, impeding our full comprehension of the so-called lanthanide contraction phenomenon: a fundamental aspect of the periodic table that is quoted in general chemistry textbooks. Here we demonstrate a stable chelation of the 147Pm radionuclide (half-life of 2.62 years) in aqueous solution by the newly synthesized organic diglycolamide ligand. The resulting homoleptic PmIII complex is studied using synchrotron X-ray absorption spectroscopy and quantum chemical calculations to establish the coordination structure and a bond distance of promethium. These fundamental insights allow a complete structural investigation of a full set of isostructural lanthanide complexes, ultimately capturing the lanthanide contraction in solution solely on the basis of experimental observations. Our results show accelerated shortening of bonds at the beginning of the lanthanide series, which can be correlated to the separation trends shown by diglycolamides9–11. The characterization of the radioactive PmIII complex in an aqueous environment deepens our understanding of intra-lanthanide behaviour12–15 and the chemistry and separation of the f-block elements16.

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Strukturuntersuchungen an Lanthanidenoxalaten. I. Einkristalluntersuchungen an Neodym(III)‐oxalatdekahydrat und Samarium(III)‐oxalatdekahydrat. Die Elementarzelle von Promethium(III)‐oxalatdekahydrat

Cited by 16 publications

References 5 publications

New Family of Porous Lanthanide-Containing Coordination Polymers: [Ln₂(C₂O₄)₃(H₂O)₆,12H₂O]_∞ with Ln = La−Yb or Y

New Family of Porous Lanthanide-Containing Coordination Polymers: [Ln₂(C₂O₄)₃(H₂O)₆,12H₂O]_∞ with Ln = La−Yb or Y

Americium

Observation of a promethium complex in solution

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Strukturuntersuchungen an Lanthanidenoxalaten. I. Einkristalluntersuchungen an Neodym(III)‐oxalatdekahydrat und Samarium(III)‐oxalatdekahydrat. Die Elementarzelle von Promethium(III)‐oxalatdekahydrat

Cited by 16 publications

References 5 publications

New Family of Porous Lanthanide-Containing Coordination Polymers: [Ln2(C2O4)3(H2O)6,12H2O]∞ with Ln = La−Yb or Y

New Family of Porous Lanthanide-Containing Coordination Polymers: [Ln2(C2O4)3(H2O)6,12H2O]∞ with Ln = La−Yb or Y

Americium

Observation of a promethium complex in solution

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New Family of Porous Lanthanide-Containing Coordination Polymers: [Ln₂(C₂O₄)₃(H₂O)₆,12H₂O]_∞ with Ln = La−Yb or Y

New Family of Porous Lanthanide-Containing Coordination Polymers: [Ln₂(C₂O₄)₃(H₂O)₆,12H₂O]_∞ with Ln = La−Yb or Y