Gas-Phase Hydration of U(IV), U(V), and U(VI) Dioxo Monocations

Gresham, Garold L.; Gianotto, Anita K.; Harrington, Peter de B.; Cao, Libo; Scott, Jill R.; Olson, John E.; Appelhans, Anthony D.; Stipdonk, and Michael J. Van; Groenewold, Gary S.

doi:10.1021/jp035443e

Cited by 50 publications

(86 citation statements)

References 59 publications

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“…Because only the ion at m/z 270 was isolated for storage in the ion trap, the m/z 288 peak observed in Figure 4 is an H 2 O adduct to m/z 270 formed by an association reaction in the gas phase. However, the intensity of m/z 288 (Ͻ5% relative to m/z 270) is vastly lower than the peak at the same m/z that was an apparent product ion generated by the CID of investigation that demonstrated slow hydration rates for the reduced uranyl ion produced by ion induced sputtering of solid UO 3 [42]. We propose instead that the product may be generated via the reaction:…”

Section: Resultsmentioning

confidence: 78%

“…The formation of abundant H 2 O adducts indicates that several of the uranyl complex ions show a significant tendency to accept ligands via gas-phase association reactions in the ion trap. The reaction kinetics for the addition of one or more H 2 O ligands to UO 2 ϩ and related species generated by ioninduced sputtering of solid UO 3 was recently investigated [42]. While beyond the scope of the present study, the reaction kinetics for the addition of H 2 O ligands to the various CID products generated from the alcohol coordinated complexes containing UO 2 2ϩ were also investigated and will be the subject of a separate report [43].…”

Section: Resultsmentioning

confidence: 99%

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Elucidation of the collision induced dissociation pathways of water and alcohol coordinated complexes containing the uranyl cation

Stipdonk

Anbalagan

Chien

et al. 2003

J. Am. Soc. Mass Spectrom.

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Multiple-stage tandem mass spectrometry was used to characterize the dissociation pathways for complexes composed of (1) the uranyl ion, (2) nitrate or hydroxide, and (3) water or alcohol. The complex ions were derived from electrospray ionization (ESI) ϩ . The abundance of the species was greater than expected based on previous experimental measurements of the (slow) hydration rate for UO 2 ϩ when stored in the ion trap. To account for the production of the hydrated product, a reductive elimination reaction involving reactive collisions with water in the ion trap is proposed. T he speciation and reactivity of uranium is a topic of sustained interest because species-dependent chemistry [1] controls processes ranging from nuclear fuel processing [2] to mobility and fate in the geologic subsurface [3,4]. The solution chemistry of uranium is dominated by the uranyl dication, UO 2 2ϩ , which is known to form complexes with a range of ligands [1]. Specific interaction with solvent will significantly influence the physico-chemical behavior of the uranyl ion and its complexes, and this has motivated investigations of complex composition and stability using infrared spectroscopy and extended X-ray absorption fine structure [5][6][7][8][9][10][11]. Unfortunately, explicit control over the interactions of solvent and nonsolvent ligands with the uranyl ion is difficult, which makes the study of species-dependent uranium behavior complicated. To gain a better understanding of the intrinsic interactions between different uranyl species and solvent, we have begun an investigation of uranyl-anion complexes in the gas phase using ion-trap mass spectrometry (IT-MS). Several recent reports have demonstrated that intrinsic metal and metal complex chemistry can be investigated by the (controlled) addition of reagent gas to an ion trap [12][13][14][15][16][17][18][19][20][21][22], or by way of the presence of H 2 O and other small molecule contaminants within the He bath gas used to collisionally cool ions and improve trapping efficiency [23][24][25]. The reactions of uranium ions in the gas phase have been the subject of several earlier investigations. Studies by , and by Schwarz and coworkers [30] have probed the reactions between U ϩ and UO ϩ and organic compounds such as alkanes and alcohols. Armentrout and Beauchamp [31] investigated the oxidation of U ϩ using small molecules such as O 2 , CO, CO 2 , COS, and

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Section: Resultsmentioning

confidence: 78%

Section: Resultsmentioning

confidence: 99%

Elucidation of the collision induced dissociation pathways of water and alcohol coordinated complexes containing the uranyl cation

Stipdonk

Anbalagan

Chien

et al. 2003

J. Am. Soc. Mass Spectrom.

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“…In both experiments, the ion-molecule reaction times were the same as for m/z 301 (180 s) but the pressures were slightly different (2.4 ϫ 10 Ϫ8 torr for D 2 O and 4.8 ϫ 10 Ϫ8 torr for CD 3 OD). UO 2 ϩ reacts readily with CD 3 OD by adding three and four CD 3 4 ] ϩ in ion trap studies at higher partial pressures of water [17].…”

Section: Ion-molecule Reactions In the Gas-phase With D 2 O And Cd 3 mentioning

confidence: 99%

“…Many of these studies have focused on the reactions of U ϩ and UO ϩ with alkanes [6,7], alkenes [8], alcohols, thiols and ethers [9], arenes [10], and other small molecules [11][12][13][14][15][16]. Recently, the hydration reactivities of UO ϩ , UO 2 ϩ , and UO 2 2ϩ were examined using secondary ion mass spectrometry [17]. These studies used surface ionization [11,12], pulsed glow discharge [13,14], or laser ablation [6 -11, 13, 16, 17] techniques to create uranium ions for study.…”

mentioning

confidence: 99%

Ions generated from uranyl nitrate solutions by electrospray ionization (ESI) and detected with fourier transform ion-cyclotron resonance (FT-ICR) mass spectrometry

Pasilis

Somogyi

Herrmann

et al. 2006

J. Am. Soc. Mass Spectrom.

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Electrospray ionization (ESI) of uranyl nitrate solutions generates a wide variety of positively and negatively charged ions, including complex adducts of uranyl ions with methoxy, hydroxy, and nitrate ligands. In the positive ion mode, ions detected by Fourier transform ion cyclotron resonance (FT-ICR) mass spectrometry are sensitive to instrumental tuning parameters such as quadrupole operating frequency and trapping time. Positive ions correspond to oligomeric uranyl nitrate species that can be characterized as having a general formula of

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“…O 2 reactions with ionic Cr oxide species were conducted by Bricker and Russell [32], who concluded that O 2 would bind with Cr carbonyl anions in a molecular fashion, but gas-phase studies of Cr oxyanions more typical of the condensed phase have not been conducted. Here, O 2 oxidation of Cr 1,2 O y H z Ϫ species is examined using an ion trap SIMS instrument; this approach has been effective for elucidating reaction pathways and kinetics for ionic Al [33,34], Si [34], and U oxides [35]. The results show that under the ambient conditions of the ion trap (1 ϫ 10 Ϫ4 torr He, 310 K), Cr 1,2 O y H z Ϫ species containing low-coordinate, low oxidation state metal centers underwent oxidation.…”

mentioning

confidence: 99%

Ion-molecule reactions of gas-phase chromium oxyanions: Cr_xO_yH_z⁻ + O₂

Gianotto¹,

Hodges²,

Harrington

et al. 2003

J. Am. Soc. Mass Spectrom.

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Gas-Phase Hydration of U(IV), U(V), and U(VI) Dioxo Monocations

Cited by 50 publications

References 59 publications

Elucidation of the collision induced dissociation pathways of water and alcohol coordinated complexes containing the uranyl cation

Elucidation of the collision induced dissociation pathways of water and alcohol coordinated complexes containing the uranyl cation

Ions generated from uranyl nitrate solutions by electrospray ionization (ESI) and detected with fourier transform ion-cyclotron resonance (FT-ICR) mass spectrometry

Ion-molecule reactions of gas-phase chromium oxyanions: Cr_xO_yH_z⁻ + O₂

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Gas-Phase Hydration of U(IV), U(V), and U(VI) Dioxo Monocations

Cited by 50 publications

References 59 publications

Elucidation of the collision induced dissociation pathways of water and alcohol coordinated complexes containing the uranyl cation

Elucidation of the collision induced dissociation pathways of water and alcohol coordinated complexes containing the uranyl cation

Ions generated from uranyl nitrate solutions by electrospray ionization (ESI) and detected with fourier transform ion-cyclotron resonance (FT-ICR) mass spectrometry

Ion-molecule reactions of gas-phase chromium oxyanions: CrxOyHz− + O2

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Ion-molecule reactions of gas-phase chromium oxyanions: Cr_xO_yH_z⁻ + O₂