U<sup>III</sup>–CN versus U<sup>IV</sup>–NC Coordination in Tris(silylamide) Complexes

Hervé, Alexandre; Bouzidi, Yamina; Berthet, Jean‐Claude; Belkhiri, Lotfi; Thuéry, Pierre; Boucekkine, Abdou; Ephritikhine, Michel

doi:10.1021/acs.inorgchem.5b00034

Cited by 33 publications

(44 citation statements)

References 83 publications

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“…The average U−N amide bond length was 2.2616(16) Å. Compared with U IV (OTf)[N(SiMe 3 ) 2 ] 3 , a compound previously reported by Ephritikhine and co‐workers, the U−O and U−N amide bond lengths of 6 were longer, likely due to the added steric demand of the N , N ‐dimethylbenzamide ligand present in the inner coordination sphere . Elongation of the N , N ‐dimethylbenzamide‐uranium bond upon oxidation tends to support the ligand‐radical character observed for 2 .…”

Section: Resultssupporting

confidence: 72%

Reduction of Carbonyl Groups by Uranium(III) and Formation of a Stable Amide Radical Anion

Mullane

Cheisson

Nakamaru‐Ogiso

et al. 2017

Chemistry A European J

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Methyl benzoate, N,N-dimethylbenzamide, and benzophenone were reduced by U [N(SiMe ) ] resulting in uranium(IV) products. Reduction of benzophenone lead to U [OC⋅Ph )][N(SiMe ) ] , (1.1) which forms the dinuclear complex, [N(SiMe ) ] U (OCPhPh-CPh O)U [N(SiMe ) ] (1.2), through coupling of the ketyl radical species upon crystallization. Reaction of N,N-dimethylbenzamide with U [N(SiMe ) ] resulted in U [OC⋅(Ph)(NMe )][N(SiMe ) ] (2), a uranium(IV) compound and the first example of a charge-separated amide radical. In the case of methyl benzoate, the reduction resulted in U (OMe)[N(SiMe ) ] (3) and benzaldehyde as the reduced organic fragment. Compound 2 showed the ability to act as a uranium(III) synthon in its reactivity with trimethylsilyl azide, a reaction that yielded U (=NSiMe )[N(SiMe ) ] . Additionally, 2 was reduced with potassium graphite resulting in [U(μ-O)[O=C(NMe )(Ph)][N(SiMe ) ] ] (4), a dinuclear uranium compound bridged by oxo ligands. Reduction of 2 in the presence of 15-crown-5 afforded isolation of the mono-oxo compound, [(15-crown-5) K][UO[N(SiMe ) ] ] (5). The results expand the reduction capabilities of U complexes and demonstrate a strategy for isolating novel metal-stabilized radicals.

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Section: Resultssupporting

confidence: 72%

Reduction of Carbonyl Groups by Uranium(III) and Formation of a Stable Amide Radical Anion

Mullane

Cheisson

Nakamaru‐Ogiso

et al. 2017

Chemistry A European J

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“…While a multitude of cyanide complexes of the transition metals are known [1,2], only a few cyanido complexes of uranium(IV) have been reported [3][4][5][6][7][8][9][10]. The first actinoid compound containing cyanide anions was K 2 [UO 2 (CN) 4 ] described by Aloy, followed by K 2 [UO 2 (CN) 2 (NO 3 ) 2 ] [11,12].…”

Section: Introductionmentioning

confidence: 99%

“…However, the existence of both compounds was doubted and literature suggests to regard them as nonexistent [13,14]. Besides (18-crown-6), N* = N(SiMe 3 ) 2 ), of which the crystal structures have been determined [8,9]. Also, some CN −bridged uranium complexes with sterically demanding ligands are known [6,7,9,[17][18][19].…”

Section: Introductionmentioning

confidence: 99%

A spatially separated [KBr₆]⁵⁻ anion in the cyanido-bridged uranium(IV) compound [U₂(CN)₃(NH₃)₁₄]⁵⁺[KBr₆]⁵⁻·NH₃

Deubner

Kraus

2019

Zeitschrift Für Naturforschung B

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The reaction of uranium tetrabromide with potassium cyanide in anhydrous liquid ammonia at room temperature leads to the formation of brown crystals of [U2(CN)3(NH3)14]5+ [KBr6]5− · NH3. We determined the crystal structure of the compound by single crystal X-ray diffraction. To the best of our knowledge it contains the unprecedented spatially separated [KBr6]5− anion and presents the first uranium(IV) cyanide compound which forms a layer structure. The compound crystallizes in the trigonal space group P3̅m1 (No. 164) with a = 10.3246(13), c = 8.4255(17) Å, V = 777.8(3) Å3, Z = 1 at T = 100 K and is well described with the Niggli formula $\mathop {} \limits_{\infty}^{2}{\left[ {{\rm{U}}{{({\rm{CN}})}_{{3 \over 2}}}{{({\rm{N}}{{\rm{H}}_3})}_{{7 \over 1}}}} \right]_2}\left[ {{\rm{KB}}{{\rm{r}}_{{6 \over 1}}}} \right].$

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“…The average U−N bond length found at 2.278 Å was slightly longer than the U−N bond length at 2.239(1) Å found in UCl[N(SiMe 3 ) 2 ] 3 . 66 The lengthening of U−N bonds to adapt for N−C−C−F chelate rings at a U 4+ cation was noted previously for U[N(C 6 F 5 ) 2 ] 4 . 29 Complex 2-Cl was observed to be C 3 symmetric in solution by 1 H and 19 F NMR spectroscopies.…”

Section: Inorganic Chemistrymentioning

confidence: 72%

Cerium(III) and Uranium(IV) Complexes of the 2-Fluorophenyl Trimethylsilyl Amide Ligand: C–F → Ln/An Interactions that Modulate the Coordination Spheres of f-Block Elements

2016

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2-fluorophenyl trimethylsilyl amide, N(SiMe3)(C6H4F)(-) was shown to engage in stronger C-F → Ce(III) interactions than pentafluorophenyl trimethylsilyl amide, N(SiMe3)(C6F5)(-), through a comparative study of the Ce(III) model complexes Ce[N(SiMe3)(C6H4F)]3 (1-F1) and Ce[N(SiMe3)(C6F5)]3 (1-F5). The presence of multiple C-F → U(IV) interactions led to complexes 2-X (X = Cl, C≡CPh, OMe) with threefold geometries, featuring a trigonal pyramidal UN3Cl core in the solid-state structures. Density functional theory calculations were applied to 2-Cl to investigate the strength of the C-F → U(IV) interactions and the influence of such interactions on resulting geometries.

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U^III–CN versus U^IV–NC Coordination in Tris(silylamide) Complexes

Cited by 33 publications

References 83 publications

Reduction of Carbonyl Groups by Uranium(III) and Formation of a Stable Amide Radical Anion

Reduction of Carbonyl Groups by Uranium(III) and Formation of a Stable Amide Radical Anion

A spatially separated [KBr₆]⁵⁻ anion in the cyanido-bridged uranium(IV) compound [U₂(CN)₃(NH₃)₁₄]⁵⁺[KBr₆]⁵⁻·NH₃

Cerium(III) and Uranium(IV) Complexes of the 2-Fluorophenyl Trimethylsilyl Amide Ligand: C–F → Ln/An Interactions that Modulate the Coordination Spheres of f-Block Elements

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UIII–CN versus UIV–NC Coordination in Tris(silylamide) Complexes

Cited by 33 publications

References 83 publications

Reduction of Carbonyl Groups by Uranium(III) and Formation of a Stable Amide Radical Anion

Reduction of Carbonyl Groups by Uranium(III) and Formation of a Stable Amide Radical Anion

A spatially separated [KBr6]5− anion in the cyanido-bridged uranium(IV) compound [U2(CN)3(NH3)14]5+[KBr6]5−·NH3

Cerium(III) and Uranium(IV) Complexes of the 2-Fluorophenyl Trimethylsilyl Amide Ligand: C–F → Ln/An Interactions that Modulate the Coordination Spheres of f-Block Elements

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U^III–CN versus U^IV–NC Coordination in Tris(silylamide) Complexes

A spatially separated [KBr₆]⁵⁻ anion in the cyanido-bridged uranium(IV) compound [U₂(CN)₃(NH₃)₁₄]⁵⁺[KBr₆]⁵⁻·NH₃