C.A. Stitt scite author profile

X-ray diffraction has been used to probe the radiolytic corrosion of uranium dioxide. Single crystal thin films of UO(2) were exposed to an intense X-ray beam at a synchrotron source in the presence of water, in order to simultaneously provide radiation fields required to split the water into highly oxidising radiolytic products, and to probe the crystal structure and composition of the UO(2) layer, and the morphology of the UO(2)/water interface. By modeling the electron density, surface roughness and layer thickness, we have been able to reproduce the observed reflectivity and diffraction profiles and detect changes in oxide composition and rate of dissolution at the Ångström level, over a timescale of several minutes. A finite element calculation of the highly oxidising hydrogen peroxide product suggests that a more complex surface interaction than simple reaction with H(2)O(2) is responsible for an enhancement in the corrosion rate directly at the interface of water and UO(2), and this may impact on models of long-term storage of spent nuclear fuel.

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In-situ removal and characterisation of uranium-containing particles from sediments surrounding the Fukushima Daiichi Nuclear Power Plant

Martin

Griffiths

Jones

et al. 2016

Spectrochimica Acta Part B: Atomic Spectroscopy

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C.A. Stitt

Characterization of cubic γ-phase uranium molybdenum alloys synthesized by ultrafast cooling

Water corrosion of spent nuclear fuel: radiolysis driven dissolution at the UO₂/water interface

In-situ removal and characterisation of uranium-containing particles from sediments surrounding the Fukushima Daiichi Nuclear Power Plant

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C.A. Stitt

Characterization of cubic γ-phase uranium molybdenum alloys synthesized by ultrafast cooling

Water corrosion of spent nuclear fuel: radiolysis driven dissolution at the UO2/water interface

In-situ removal and characterisation of uranium-containing particles from sediments surrounding the Fukushima Daiichi Nuclear Power Plant

Contact Info

Product

Resources

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Water corrosion of spent nuclear fuel: radiolysis driven dissolution at the UO₂/water interface