Ready Access to Anhydrous Anionic Lanthanide Acetates by Using Imidazolium Acetate Ionic Liquids as the Reaction Medium

Bousrez, Guillaume; Renier, Olivier; Kelley, Steven P.; Adranno, Brando; Tahavori, Elnaz; Smetana, Volodymyr; Tang, Si‐Fu; Mudring, Anja‐Verena; Rogers, Robin D.

doi:10.1002/chem.202100141

Cited by 9 publications

(12 citation statements)

References 51 publications

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“…In 1 – 7 the polymeric chains are rather compact, which is characterized by two factors, the total number of bridging acetates and the high proportion of the η 3 μ 2 κ 2 mode, affecting Ln–Ln intrachain distances. In this respect 1 – 5 and 7 have strong analogies with the recently discovered series [C 2 mim][Ln 2 (OAc) 7 ] . The latter formally deviates from the 3:1 OAc – :Ln ratio, but one of the acetate groups is nonbridging, in fact substituting for the respective position of the N-/O-donor in 1 – 5 .…”

Section: Resultsmentioning

confidence: 68%

“…We have hypothesized that by dissolving f-element salts in ILs containing only soft donors (e.g., imidazoles) one could drive off volatiles, including water and carboxylic or mineral acids, leaving no choice but to complex the softer donors of the ILs . We have previously shown that f-element salt hydrates can be dissolved and dehydrated in the ILs with a common anion (e.g., nitrate or acetate). − …”

Section: Introductionmentioning

confidence: 99%

“…Acetate-based ionic liquids not only serve as a reaction medium but also act as good dehydrating agents, allowing precise control over the course of the reaction . The thermodynamic and electrochemical properties of the acetate-based ionic liquids have been actively investigated recently, particularly in light of CO 2 sorption. − Our recent explorations revealed that particularly imidazolium-based acetate ILs showed perfect performance not only in dissolution of insoluble f-element oxides but also in dehydration of the formed complexes .…”

Section: Introductionmentioning

confidence: 99%

“…The thermodynamic and electrochemical properties of the acetate-based ionic liquids have been actively investigated recently, particularly in light of CO 2 sorption. − Our recent explorations revealed that particularly imidazolium-based acetate ILs showed perfect performance not only in dissolution of insoluble f-element oxides but also in dehydration of the formed complexes . However, while the formed acetate complexes show huge structural variability, they allow ready incorporation of soft N-donors, opening new experimental pathways and showing sensitivity to the cation size …”

Section: Introductionmentioning

confidence: 99%

“…21 However, while the formed acetate complexes show huge structural variability, they allow ready incorporation of soft N-donors, 18 opening new experimental pathways and showing sensitivity to the cation size. 20 Because of the difficulty in using transuranic elements, we need to validate our methods first with 4f analogues and we need to find simple one-pot reactions to simplify the handling of the transuranic isotopes. We have chosen Nd 3+ as an analogue for 243 Am 3+ and Ce 3+ /Ce 4+ as analogues for 239 Pu 3+ /Pu 4+ , given their charge to size ratios.…”

Section: ■ Introductionmentioning

confidence: 99%

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Anhydrous vs Hydrated f-Element Acetate Polymers Dictated by the Stoichiometry of Protic Acidic/Basic Azole Mixtures

Nayak

Smetana

Mudring

et al. 2021

Crystal Growth & Design

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Continuing our investigations of ionic liquid (IL) based routes to a library of f-element/soft donor complexes which could be studied crystallographically, we have explored the dissolution of f-element salts in protic imidazole-based ILs containing only soft donors at high temperatures to drive off volatiles, including water and carboxylic or mineral acids. Here we present our results, reacting acidic and basic azoles in 1:3 or 1:1 stoichiometric compositions at elevated temperature, followed by saturation with Nd(OAc)3·xH2O or Ce(OAc)3·xH2O, which led to 13 new metal–acetate polymeric complexes identified by single-crystal X-ray diffraction. We found that the diversity in coordination modes of the simple acetate ligand that interfere with substitution of the softer N donors led to several readily crystallizable complexes forming two distinct groups with respect to f-element interaction with the ionic liquid precursors. When the acidic/basic azole ratio was 1:3, acetate and a neutral basic azole were found to be coordinated to the metal centers but no water, although in one case (2) water was observed in the secondary coordination sphere: [Ce(μ2-OAc)3(C1im)] n (1, C1im = 1-methylimidazole), [Nd(μ2-(OAc)3(C1im)] n ·nH2O (2), [Ce(μ2-OAc)3(C2im)] n (3, C2im = 1-ethylimidazole), [Ln(μ2-OAc)3DMF] n (Ln = Nd (4), Ce (5); dimethylformamide (DMF) was substituted for the azole mixture), and [Nd(μ2-OAc)3(C4im)] n (6, C4im = 1-butylimidazole). However, when the stoichiometric ratio was 1:1, water was always observed coordinated to the metal ions with the acidic azole included in the structure as a solvate or cocrystal, despite a higher reaction temperature: [Nd(μ2-OAc)3(OH2)] n ·n(1,2,3-Taz) (7, 1,2,3-Taz = 1,2,3-triazole), [Ln(μ2-OAc)3(OH2)] n ·n(4,5-DCim) (Ln = Nd (8), Ce (9), 4,5-DCim = 4,5-dicyanoimidazole), [Ln(μ2-OAc)3(OH2)] n ·n(3,5-diNH2-1,2,4-Taz) (Ln = Nd (10), Ce (11), 3,5-diNH2-1,2,4-Taz = 3,5-diamino-1,2,4-triazole), [Ce(μ2-OAc)3(OH2)] n ·n(3-NH2-1,2,4-Taz) (12, 3-NH2-1,2,4-Taz = 3-amino-1,2,4-triazole), and [Nd(μ2-OAc)3(OH2)] n ·n(5-NH2-Tz) (13, 5-NH2-Tz = 5-aminotetrazole). All of the compounds retain the Ln:OAc– ratio of 1:3 and form 1D polymeric chains; however, they exhibit a variety of coordination modes affecting the degree of chain condensation. The isolation of both hydrated and anhydrous products revealed different abilities of the investigated soft N-donors to compete with O-donors finding their place in the coordination sphere of the lanthanide or in the crystal lattice.

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Section: Resultsmentioning

confidence: 68%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: ■ Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Anhydrous vs Hydrated f-Element Acetate Polymers Dictated by the Stoichiometry of Protic Acidic/Basic Azole Mixtures

Nayak

Smetana

Mudring

et al. 2021

Crystal Growth & Design

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A New Class of Task‐Specific Imidazolium Salts and Ionic Liquids and Their Corresponding Transition‐Metal Complexes for Immobilization on Electrochemically Active Surfaces

Seidl

Romero

Heinemann

et al. 2022

Chemistry A European J

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Adding to the versatile class of ionic liquids, we report the detailed structure and property analysis of a new class of asymmetrically substituted imidazolium salts, offering interesting thermal characteristics, such as liquid crystalline behavior, polymorphism or glass transitions. A scalable general synthetic procedure for N-polyaryl-N'-alkyl-functionalized imidazolium salts with para-substituted linker (L) moieties at the aryl chain, namely [LPh m Im H R] + (L = Br, CN, SMe, CO 2 Et, OH; m = 2, 3; R = C 12 , PEG n ; n = 2, 3, 4), was developed. These imidazolium salts were studied by single-crystal X-ray diffraction (SC-XRD), NMR spectroscopy and thermochemical methods (DSC, TGA). Furthermore, these imidazolium salts were used as N-heterocyclic carbene (NHC) ligand precursors for mononuclear, first-row transition metal complexes (Mn

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Trapping an Unexpected/Unprecedented Hexanuclear Ce(III) Hydrolysis Product with Neutral 4‐Amino‐1,2,4‐triazole

Wineinger,

Smetana,

Hiti

et al. 2023

Eur J Inorg Chem

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Using Ce(III) as both a representative lanthanide and actinide analog, the ability of mixtures of acidic and basic azoles to allow direct access to homoleptic N‐donor f‐element complexes in one pot reactions from hydrated salts as starting materials was examined by reacting mixtures of 4‐amino‐1,2,4‐triazole (4‐NH2‐1,2,4‐Triaz), 5‐amino‐tetrazole (5‐NH2‐HTetaz), and 1,2,3‐triazole (1,2,3‐HTriaz) in 1:1 and 1:3 ratios with CeCl3•7H2O, [C2mim]3[CeCl6] ([C2mim]+ = 2‐ethyl‐1‐methylimidazolium), and Ce(NO3)3•6H2O. Although unsuccessful in our goal, single crystal X‐ray diffraction revealed that neutral 4‐NH2‐1,2,4‐Triaz is structure directing via h2m2k2 bridging, with the formation of the dinuclear complexes [Ce2Cl2(µ2‐4‐NH2‐1,2,4‐Triaz)4(H2O)8]Cl4•4H2O, [Ce2(µ2‐4‐NH2‐1,2,4‐Triaz)4(4‐NH2‐1,2,4‐Triaz)2(Cl)6], and [4‐NH2‐1,2,4‐HTriaz][Ce2(µ2‐4‐NH2‐1,2,4‐Triaz)2(µ2‐NO3)(NO3)6(H2O)2]. When the synthetic conditions favored hydrolysis, the hexanuclear Ce(III) complex [Ce6(µ3‐O)4(µ3‐OH)2(µ3‐Cl)2(Cl)6(µ2‐4‐NH2‐1,2,4‐Triaz)12]•7H2O was isolated. This unexpected hydrolysis product represents the first example of a high nuclearity lanthanide complex where all Ln atoms are pairwise connected through 12 N‐donor ligands or 12 neutral bridging ligands of any type, a rare example of incorporation of non‐oxo coordinating anions in the M6X8 core, and the first reported Ce(III) hexanuclear complex of this type.

show abstract

Ready Access to Anhydrous Anionic Lanthanide Acetates by Using Imidazolium Acetate Ionic Liquids as the Reaction Medium

Cited by 9 publications

References 51 publications

Anhydrous vs Hydrated f-Element Acetate Polymers Dictated by the Stoichiometry of Protic Acidic/Basic Azole Mixtures

Anhydrous vs Hydrated f-Element Acetate Polymers Dictated by the Stoichiometry of Protic Acidic/Basic Azole Mixtures

A New Class of Task‐Specific Imidazolium Salts and Ionic Liquids and Their Corresponding Transition‐Metal Complexes for Immobilization on Electrochemically Active Surfaces

Trapping an Unexpected/Unprecedented Hexanuclear Ce(III) Hydrolysis Product with Neutral 4‐Amino‐1,2,4‐triazole

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