Jean‐Yves Colle scite author profile

Production of actinide oxide powder via dry thermal decomposition of corresponding oxalates is currently carried out on the industrial scale at temperatures exceeding 500°C. Although it is simple, this method presents some disadvantages such as high decomposition temperature with a direct effect on the surface area, pre-organised morphology of the nanoparticles affecting the sintering behaviour, etc. We have recently proposed the decomposition of An IV -oxalates under hot compressed water conditions as a straightforward way to produce reactive actinide oxide nanocrystals. This method could be easily applied at low temperatures (95-250°C) in order to generate highly crystalline nano-AnO 2 . We present here the formation conditions of AnO 2 (An = Th, U, Np, and Pu) and some associated solid solutions, their stability, and grain growth during thermal treatment. The involvement of water molecules in the mechanism of the oxalate decomposition under the hot compressed water conditions has been demonstrated by an isotopic exchange reaction during the thermal treatment of the hydrated oxalate in H 2 ĳ 17 O] through MAS-NMR and Raman techniques. CrystEngComm, 2018, 20, 4614-4622 This journal is |

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A thermodynamic study of the Pu–Am–O system

Gotcu-Freis

Colle

Guéneau

et al. 2011

Journal of Nuclear Materials

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Fission product release and microstructure changes during laboratory annealing of a very high burn-up fuel specimen

Hiernaut

Wiss

Colle

et al. 2008

Journal of Nuclear Materials

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Evolution of spent nuclear fuel in dry storage conditions for millennia and beyond

Wiss

Hiernaut

Roudil

et al. 2014

Journal of Nuclear Materials

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Volatile molecule PuO3 observed from subliming plutonium dioxide

Ronchi

Capone

Colle

et al. 2000

Journal of Nuclear Materials

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Jean‐Yves Colle

A low-temperature synthesis method for AnO₂ nanocrystals (An = Th, U, Np, and Pu) and associate solid solutions

A thermodynamic study of the Pu–Am–O system

Fission product release and microstructure changes during laboratory annealing of a very high burn-up fuel specimen

Evolution of spent nuclear fuel in dry storage conditions for millennia and beyond

Volatile molecule PuO3 observed from subliming plutonium dioxide

Contact Info

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Jean‐Yves Colle

A low-temperature synthesis method for AnO2 nanocrystals (An = Th, U, Np, and Pu) and associate solid solutions

A thermodynamic study of the Pu–Am–O system

Fission product release and microstructure changes during laboratory annealing of a very high burn-up fuel specimen

Evolution of spent nuclear fuel in dry storage conditions for millennia and beyond

Volatile molecule PuO3 observed from subliming plutonium dioxide

Contact Info

Product

Resources

About

A low-temperature synthesis method for AnO₂ nanocrystals (An = Th, U, Np, and Pu) and associate solid solutions