A Uranyl Peroxide Dimer in the Gas Phase

Dau, Phuong Diem; Dau, Phuong V.; Rao, Linfeng; Kovács, Attila; Gibson, John K.

doi:10.1021/acs.inorgchem.7b00187

Cited by 9 publications

(17 citation statements)

References 57 publications

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“…The U=Ot distances in C, 1.80 Å at the B3LYP level (1.827 Å at PBE), are consistent with typical U=Oyl distances, and the U-Ob distances, 2.11 Å, are similar to typical U-O single bond distances, such as terminal U-OH 41 and bridging U-Ob-U. 71 The basis for the semi-empirical bond-valence approach to estimating oxidation states was described 90 years ago by Pauling, 82 and subsequently elaborated by Brown. [83][84][85] Like other such sound and persistent models, bond-valence is necessarily somewhat qualitative but has proved sufficiently valid that it remains relevant.…”

Section: Elaborating the "Cation-cation" Interaction In [(Uo2)2(12c4)supporting

confidence: 59%

“…A particularly remarkable result is CID elimination of O2 from bridging-peroxide dimer B to yield 71 Our calculations indicate that conversion of B gives C occurs with reduction of both U(VI) to U(V). Reaction (2) can be formulated as (2') in which the bridging O2 is eliminated while retaining the +2 charge and dimeric structure, by creating a direct unmediated CCI interaction between two U(V) moieties.…”

Section: Elaborating the "Cation-cation" Interaction In [(Uo2)2(12c4)mentioning

confidence: 78%

“…We initially presumed that A consists of two uranyl moieties linked by a bridging peroxide, in analogy with previously reported [(DMA)-(UO2)-(O2)-(UO2)-(DMA)] 2+ where terminal donor ligands DMA are 2,2'-trifluoroethylazanediyl-bis-N,N'-dimethylactamide. 71 We tentatively postulate that…”

Section: Esi and Cid Synthesis Of Uranyl-12c4 Dimer Complexesmentioning

confidence: 97%

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Destruction of the Uranyl Moiety in a U(V) “Cation–Cation” Interaction

Jian

et al. 2019

Inorg. Chem.

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A gas-phase uranyl peroxide dimer supported by three 12-Crown-4 ether (12C4) ligands, [(UO2)2(O2)(12C4)3)] 2+ (A), was prepared by electrospray ionization. Density functional theory (DFT) indicates a structure with two terminal 12C4 and the third 12C4 bridging the uranium centers. Collision induced dissociation (CID) of A resulted in elimination of the bridging 12C4 to yield a uranyl peroxide dimer with two terminal donor ligands, [(12C4)(UO2)(O2)(UO2)(12C4)] 2+ (B). Remarkably, CID of B resulted in elimination of the bridging peroxide concomitant with reduction of U(VI) to U(V) in C, [(12C4)(UO2)(UO2)(12C4)] 2+. DFT indicates that in C there is direct interaction between the two UO2 + , which can thus be considered as a so-called cation-cation interaction (CCI). This formal CCI, induced by tetradentate 12C4 ligands, corresponds to destruction of the linear uranyl moieties and creation of bridging U-O-U oxo-bonds. Based on the structural rearrangement to achieve the structurally extreme CCI interaction, it is predicted to also be accessible for PaO2 + , but is less feasible for transuranic actinyls.

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Section: Elaborating the "Cation-cation" Interaction In [(Uo2)2(12c4)supporting

confidence: 59%

Section: Elaborating the "Cation-cation" Interaction In [(Uo2)2(12c4)mentioning

confidence: 78%

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Destruction of the Uranyl Moiety in a U(V) “Cation–Cation” Interaction

Jian

et al. 2019

Inorg. Chem.

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“…The complex is puckered ( Figure 2B), with uranyl oxygens tipped away from the tautomeric oxime nitrogen atoms, resembling a curvature evocative of uranyl-peroxide dimers and clusters. [25][26][27][28][29] Convergent and divergent uranyl oxygens are separated by 3.256(5) Å and 4.807(5) Å, respectively, while the uranium centers are 4.0513(3) Å apart. Unremarkably, the uranyl group is linear and symmetrical with U-O oxo bond lengths of 1.757(3) Å and 1.764(3) Å and a O=U=O angle of 178.83(12)° (Table S1).…”

Section: Structural Description Of (1)mentioning

confidence: 99%

Structural and computational characterization of a bridging zwitterionic-amidoxime uranyl complex

Decato

Berryman

2019

Org. Chem. Front.

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“…Actually, the size of such clusters is greatly influenced by the pH, ranging from 20 up to 120 uranium atoms . Further studies have proved that the bending of the U─O 2 ─U dihedral angle encourages curved shapes and thus cage cluster formation . In addition, classical molecular dynamic simulations have been developed so as to address the role of counter cations in the solubility and size of such systems .…”

Section: Introductionmentioning

confidence: 99%

Performance of group additivity methods for predicting the stability of uranyl complexes

Petrus

2020

J Comput Chem

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Herein, we investigated the viability of two group additivity methods for predicting Gibbs energies of a set of uranyl complexes. In first place, we proved that both density functional theory (DFT)‐based methods and Serezhkin's stereoatomic model provide equivalent answers in terms of stability. Moreover, we proposed a novel methodology based on Mayer's population analysis for estimating Serezhkin's empirical parameters theoretically. On the other hand, we showed that Cheong and Persson linear algebra methodology can be successfully applied to uranyl complexes, and analyzed its performance in connection with the chemical nature of the compounds employed in the model.

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A Uranyl Peroxide Dimer in the Gas Phase

Cited by 9 publications

References 57 publications

Destruction of the Uranyl Moiety in a U(V) “Cation–Cation” Interaction

Destruction of the Uranyl Moiety in a U(V) “Cation–Cation” Interaction

Structural and computational characterization of a bridging zwitterionic-amidoxime uranyl complex

Performance of group additivity methods for predicting the stability of uranyl complexes

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