Simple NUF<sub>3</sub> and PUF<sub>3</sub> Molecules with Triple Bonds to Uranium

Andrews, Lester; Wang, Xuefeng; Lindh, Roland; Roos, Bjoern O.; Marsden, Colin J.

doi:10.1002/anie.200801120

Cited by 89 publications

(135 citation statements)

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“…16 The subsequent reaction of U and NF 3 produced only the most stable NUF 3 product. 17 We have published a short description of the dinitrogen complexes of NUN and UN formed upon sample annealing in recent argon matrix investigations of U and N 2 reactions. 18 The most important new information on the terminal nitride UN is the observation of rotationally resolved optical transitions of supersonically cooled UN, which provided a ground-state UN bond length of 1.7650 (12) Å.…”

Section: ■ Introductionmentioning

confidence: 99%

Infrared Spectra and Electronic Structure Calculations for NN Complexes with U, UN, and NUN in Solid Argon, Neon, and Nitrogen

et al. 2014

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Reactions of laser-ablated U atoms with N2 molecules upon codeposition in excess argon or neon at 4 K gave intense NUN and weak UN absorptions. Annealing produced progressions of new absorptions for the UN2(N2)1,2,3,4,5 and UN(N2)1,2,3,4,5,6 complexes. The neon-to-argon matrix shift decreases with increasing NN ligation and therefore the number of noble gas atoms left in the primary coordination sphere around the NUN molecule. Small matrix shifts are observed when the secondary coordination layers around the primary UN2(N2)1,2,3,4,5 and UN(N2)1,2,3,4,5,6 complexes are changed from neon-to-argon to nitrogen. Electronic structure, energy, and frequency calculations provide support for the identification of these complexes and the characterization of the N≡U≡N and U≡N core molecules as terminal uranium nitrides. Codeposition of U with pure nitrogen produced the saturated U(NN)7 complex, which UV irradiation converted to the NUN(NN)5 complex with slightly lower frequencies than found in solid argon.

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Section: ■ Introductionmentioning

confidence: 99%

Infrared Spectra and Electronic Structure Calculations for NN Complexes with U, UN, and NUN in Solid Argon, Neon, and Nitrogen

et al. 2014

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“…Spurred on by previous matrix isolation experiments 54,55 37,43 . From a main group perspective, these species represent fundamental, metal-stabilized parent p-block fragments that are predominantly found as transient intermediates in the gas-phase or low-temperature matrices.…”

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“…A thorium polyarsenide cluster is known 52 , but otherwise uranium-arsenic complexes are limited to computational investigations 53 or low-temperature matrix isolation experiments 54,55 . Spurred on by previous matrix isolation experiments 54,55 and the recent isolation of terminal uranium(V)-and (VI)-nitrides 38,39 , we reported that by using uranium(IV) precursors exemplified by [U(Tren TIPS )(THF)][BPh 4 ] [1, Tren TIPS = N(CH 2 CH 2 NSi i Pr 3 ) 3 ], parent uranium(IV) pnictide complexes [U(Tren TIPS )(EH 2 )] [E = N, 2a; E = P, 2b] can be accessed and converted to the corresponding uranium(IV) terminal parent imido and phosphinidene complexes [U(Tren TIPS )(EH)][K(L) 2 ] [E = N, L = 15-crown-5 ether (15C5), 3a; E = P, L = benzo-15-crown-5 ether (B15C5), 3b] 37,43 . From a main group perspective, these species represent fundamental, metal-stabilized parent p-block fragments that are predominantly found as transient intermediates in the gas-phase or low-temperature matrices.…”

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confidence: 98%

“…Indeed, given that uranium comes into contact with a wide range of elements in nuclear fuel cycles, it is surprising that there are no structurally authenticated molecular uranium-arsenic bonds of any type under ambient conditions 50,51 . A thorium polyarsenide cluster is known 52 , but otherwise uranium-arsenic complexes are limited to computational investigations 53 or low-temperature matrix isolation experiments 54,55 .…”

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Triamidoamine uranium(IV)–arsenic complexes containing one-, two- and threefold U–As bonding interactions

et al. 2015

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To further our fundamental understanding of the nature and extent of covalency in uranium-ligand bonding, and the benefits that this may have for the design of new ligands for nuclear waste separation, there is burgeoning interest in the nature of uranium complexes with soft- and multiple-bond-donor ligands. Despite this, there have so far been no examples of structurally authenticated molecular uranium-arsenic bonds under ambient conditions. Here, we report molecular uranium(IV)-arsenic complexes featuring formal single, double and triple U-As bonding interactions. Compound formulations are supported by a range of characterization techniques, and theoretical calculations suggest the presence of polarized covalent one-, two- and threefold bonding interactions between uranium and arsenic in parent arsenide [U-AsH2], terminal arsinidene [U=AsH] and arsenido [U≡AsK2] complexes, respectively. These studies inform our understanding of the bonding of actinides with soft donor ligands and may be of use in future ligand design in this area.

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“…The isolation of terminal uranium nitride species [N"U@NH], [N"U@O] + , [N"U"N], and [N" UF 3 ] has been achieved by inert gas matrices at lower temperatures [1][2][3] [5]. A number of theoretical studies have been carried out for uranium compounds containing triple bonds between uranium and main group elements [4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22]. The calculated U"E bond distances at various level of theory are summarized in Table 1 3 ] at CASPT2 level indicate that the more electronegative substituents lengthen the U"N bond distance.…”

Section: Introductionmentioning

confidence: 99%

Effects of density functionals and dispersion interactions on geometries, bond energies and harmonic frequencies of EUX3 (E=N, P, CH; X=H, F, Cl)

Pandey

Patidar

et al. 2014

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Simple NUF₃ and PUF₃ Molecules with Triple Bonds to Uranium

Cited by 89 publications

References 46 publications

Infrared Spectra and Electronic Structure Calculations for NN Complexes with U, UN, and NUN in Solid Argon, Neon, and Nitrogen

Infrared Spectra and Electronic Structure Calculations for NN Complexes with U, UN, and NUN in Solid Argon, Neon, and Nitrogen

Triamidoamine uranium(IV)–arsenic complexes containing one-, two- and threefold U–As bonding interactions

Effects of density functionals and dispersion interactions on geometries, bond energies and harmonic frequencies of EUX3 (E=N, P, CH; X=H, F, Cl)

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Simple NUF3 and PUF3 Molecules with Triple Bonds to Uranium

Cited by 89 publications

References 46 publications

Infrared Spectra and Electronic Structure Calculations for NN Complexes with U, UN, and NUN in Solid Argon, Neon, and Nitrogen

Infrared Spectra and Electronic Structure Calculations for NN Complexes with U, UN, and NUN in Solid Argon, Neon, and Nitrogen

Triamidoamine uranium(IV)–arsenic complexes containing one-, two- and threefold U–As bonding interactions

Effects of density functionals and dispersion interactions on geometries, bond energies and harmonic frequencies of EUX3 (E=N, P, CH; X=H, F, Cl)

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Simple NUF₃ and PUF₃ Molecules with Triple Bonds to Uranium