Synthesis and characterization of coffinite

V. Pointeau; A.P. Deditius; F. Miserque; D. Renock; U. Becker; J. Zhang; N. Clavier; N. Dacheux; C. Poinssot; R.C. Ewing

doi:10.1016/j.jnucmat.2009.06.030

Back

Synthesis and characterization of coffinite

Journal article

Peer reviewed

Synthesis and characterization of coffinite

V. Pointeau, A.P. Deditius, F. Miserque, D. Renock, U. Becker, J. Zhang, N. Clavier, N. Dacheux, C. Poinssot and R.C. Ewing

Journal of Nuclear Materials, Vol.393(3), pp.449-458

2009

DOI: https://doi.org/10.1016/j.jnucmat.2009.06.030

Files and links (1)

url

Link to Published Version *Subscription may be requiredView

Abstract

Coffinite, USiO4, has been produced by hydrothermal synthesis. The synthesis products, coffinite nanoparticles (50 nm in size) with UO2 nanoparticles (a few nanometers), are always associated even if they are not always detected by XRD measurements. The formation of coffinite was shown to be very sensitive to several experimental parameters. The most important of these parameters are the pH, which must be in the range 8-9.5, the pressure, which must be below 50 bars, and the reaction conditions, which must be oxygen-free to maintain uranium in its tetravalent oxidation state. XRD and TEM reveal that tetragonal coffinite accounts for more than 90% of the final products while the by-products UO2 and a Si-rich amorphous phase are also present. The structural formula of the obtained coffinite is close to USiO4 as determined from EMPA (U0.99±0.06Si0.97±0.07O4) . XPS measurements show a peak chemical shift of the U-4f core levels by 1 eV toward higher binding energies in coffinite compared with stoichiometric UO2. The U-4f7/2 and U-4f5/2 positions in coffinite are found to be near 380.8 ± 0.3 eV and 391.7 ± 0.3 eV, respectively.

Details

Title: Synthesis and characterization of coffinite
Authors/Creators: V. Pointeau (Author/Creator) - University of Michigan
A.P. Deditius (Author/Creator) - Commonwealth Scientific and Industrial Research Organisation
F. Miserque (Author/Creator) - Laboratoire de Réactivité de Surface
D. Renock (Author/Creator) - University of Michigan
U. Becker (Author/Creator) - University of Michigan
J. Zhang (Author/Creator) - University of Michigan
N. Clavier (Author/Creator)
N. Dacheux (Author/Creator) - CEA Marcoule
C. Poinssot (Author/Creator) - CEA Marcoule
R.C. Ewing (Author/Creator) - University of Michigan
Publication Details: Journal of Nuclear Materials, Vol.393(3), pp.449-458
Publisher: Elsevier
Identifiers: 991005543073707891
Copyright: © 2009 Elsevier B.V.
Murdoch Affiliation: Murdoch University
Language: English
Resource Type: Journal article

UN Sustainable Development Goals (SDGs)

This output has contributed to the advancement of the following goals:

#12 Responsible Consumption & Production

Source: InCites

Metrics

53 Record Views

43 Times Cited - Web of Science

See more details

InCites Highlights

These are selected metrics from InCites Benchmarking & Analytics tool, related to this output

Collaboration types: Domestic collaboration; International collaboration
Citation topics: 8 Earth Sciences; 8.242 Nuclear Geology; 8.242.1362 Uranium Chemistry
Web Of Science research areas: Materials Science, Multidisciplinary; Nuclear Science & Technology
ESI research areas: Engineering