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Literature DB >> 16419996

Gas-phase uranyl-nitrile complex ions.

Michael J Van Stipdonk¹, Winnie Chien, Kellis Bulleigh, Qun Wu, Gary S Groenewold.

Abstract

Electrospray ionization was used to generate doubly charged complex ions composed of the uranyl ion and nitrile ligands. The complexes, with general formula [UO2(RCN)n]2+, n = 0-5 (where R=CH3-, CH3CH2-, or C6H5-), were isolated in an ion-trap mass spectrometer to probe intrinsic reactions with H2O. For these complexes, two general reaction pathways were observed: (a) the direct addition of one or more H2O ligands to the doubly charged complexes and (b) charge-reduction reactions. For the latter, the reactions produced uranyl hydroxide, [UO2OH], complexes via collisions with gas-phase H2O molecules and the elimination of protonated nitrile ligands.

Entities: Chemical Disease

Year: 2006 PMID： 16419996 DOI： 10.1021/jp054422c

Source DB: PubMed Journal: J Phys Chem A ISSN： 1089-5639 Impact factor: 2.781

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Cited

5 in total

5. Uranyl-water-containing complexes: solid-state UV-MALDI mass spectrometric and IR spectroscopic approach for selective quantitation.

Authors: Bojidarka Ivanova; Michael Spiteller
Journal: Environ Sci Pollut Res Int Date: 2013-08-13 Impact factor: 4.223

5 in total

Gas-phase uranyl-nitrile complex ions.

1. Gas-phase coordination complexes of U(VI)O2(2+), Np(VI)O2(2+), and Pu(VI)O2(2+) with dimethylformamide.

2. Influence of Background H₂O on the Collision-Induced Dissociation Products Generated from [UO₂NO₃]<sup/>.

3. Gas Phase Reactions of Ions Derived from Anionic Uranyl Formate and Uranyl Acetate Complexes.

4. Variable denticity in carboxylate binding to the uranyl coordination complexes.

5. Uranyl-water-containing complexes: solid-state UV-MALDI mass spectrometric and IR spectroscopic approach for selective quantitation.

Gas-phase uranyl-nitrile complex ions.

1. Gas-phase coordination complexes of U(VI)O2(2+), Np(VI)O2(2+), and Pu(VI)O2(2+) with dimethylformamide.

2. Influence of Background H2O on the Collision-Induced Dissociation Products Generated from [UO2NO3]<sup/>.

3. Gas Phase Reactions of Ions Derived from Anionic Uranyl Formate and Uranyl Acetate Complexes.

4. Variable denticity in carboxylate binding to the uranyl coordination complexes.

5. Uranyl-water-containing complexes: solid-state UV-MALDI mass spectrometric and IR spectroscopic approach for selective quantitation.

2. Influence of Background H₂O on the Collision-Induced Dissociation Products Generated from [UO₂NO₃]<sup/>.