B. Herrmann, Dissolution de pastilles d'UO2 non irradiées dans l'acide nitrique, Ref. KfK, vol.3673, 1984.

K. Nishimura, T. Chikazawa, S. Hasegawa, H. Tanaka, Y. Ikeda et al.,

Y. Takashima, Effect of nitrous acid on dissolution of UO2 powders in nitric acid optimal conditions for dissolving UO2, Journal of Nuclear Science and Technology, vol.32, issue.2, pp.157-159, 1995.

T. Fukasawa, Relationship between dissolution rate of uranium-dioxide pellets in nitricacid solutions and their porosity, Journal of Radioanalytical and Nuclear, vol.106, pp.345-356, 1986.

R. F. Taylor, E. W. Sharratt, L. E. Chazal, and D. H. Logsdail, Dissolution rates of uranium dioxide sintered pellets in nitric acid systems, Journal of Applied Chemistry, vol.13, pp.32-40, 1963.

G. Leinders, T. Cardinaels, K. Binnemans, and M. Verwerft, Accurate lattice parameter measurements of stoichiometric uranium dioxide, Journal of Nuclear Materials, 2015.

T. Cordara, S. Szenknect, L. Claparede, R. Podor, A. Mesbah et al., Kinetics of dissolution of UO2 in nitric acid solutions: a multiparametric study of the non-catalysed reaction, Journal of Nuclear Materials, vol.496, pp.251-264, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01998337

J. R. Godinho, S. Piazolo, and L. Z. Evins, Effect of surface orientation on dissolution rates and topography of CaF2, Geochimica et Cosmochimica Acta, vol.86, pp.392-403, 2012.

S. Rennie, E. L. Bright, J. E. Sutcliffe, J. E. Darnbrough, J. Rawle et al., The role of crystal orientation in the dissolution of UO2 thin films, Corrosion, vol.145, pp.162-169, 2018.