Production des radionucléides
Production des radionucléides
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Production des radionucléides

  • Study of terbium production from enriched Gd targets via the reaction 155Gd(d,2n)155Tb, Wang Y, Sounalet T, Guertin A, Nigron E, Michel N, Haddad F,  Applied Radiation and Isotopes. nov 2023;201:110996. https://doi.org/10.1016/j.apradiso.2023.110996

  • Can we reach suitable 161Tb purity for medical applications using the 160Gd(d,n) reaction ?, Nigron E, Guertin A, Haddad F, Granger L, Rayer M, Rintaud A, Applied Radiation and Isotopes. juill 2023;110927. https://doi.org/10.1016/j.apradiso.2023.110927

  • Discussions on liquid bismuth target use as an alternative for astatine-211 production, Bigoudan T, Cadiou A, Guertin A, Haddad F., 30th Conference of the International Nuclear Target Development Society (INTDS2022). 22 juin 2023; EPJ Web Conf. Volume 285, 2023.

  • Excitation functions of deuteron induced nuclear reactions on dysprosium targets for the production of the theranostic relevant isotopes of terbium, Colucci M, Carminati S, Haddad F, Nigron E, Groppi F, Manenti S., Eur Phys J Plus. 26 oct 2022;137(10):1180. https://doi.org/10.1140/epjp/s13360-022-03378-z

  • How Efficient Are Monte Carlo Calculations Together With the Q-System to Determine Radioactive Transport Limits? Case Study on Medical Radionuclides, Maietta M, Haddad F, Avila S., Front Med. 13 juill 2022;9:675009.
    https://doi.org/10.3389/fmed.2022.675009

  • Electrochemical Co-Deposition of Ni–Gd2O3 for Composite Thin Targets Preparation: Production of 155Tb as a Case Study, Y. Wang, T. Sounalet, A. Guertin, F. Haddad, N. Michel, E. Nigron, Applied Radiation and Isotopes 2022, 186, 110287. https://doi.org/10.1016/j.apradiso.2022.110287

  • Nuclear data for light charged particle induced production of emerging medical radionuclides, G. Pupillo, L. Mou, S. Manenti, F. Groppi, J. Esposito, F. Haddad, Radiochimica Acta, vol., no., 2022. https://doi.org/10.1515/ract-2022-0011

  • Is 70Zn(d,x)67Cu the Best Way to Produce 67Cu for Medical Applications?, Nigron, E.; Guertin, A.; Haddad, F.; Sounalet, T., Front. Med. 2021, 8, 674617. doi:10.3389/fmed.2021.674617

  • Production and Supply of α-Particle–Emitting Radionuclides for Targeted α-Therapy, Radchenko, V.; Morgenstern, A.; Jalilian, A. R.; Ramogida, C. F.; Cutler, C.; Duchemin, C.; Hoehr, C.; Haddad, F.; Bruchertseifer, F.; Gausemel, H.; Yang, H.; Osso, J. A.; Washiyama, K.; Czerwinski, K.; Leufgen, K.; Pruszyński, M.; Valzdorf, O.; Causey, P.; Schaffer, P.; Perron, R.; Maxim, S.; Wilbur, D. S.; Stora, T.; Li, Y., J Nucl Med 2021, 62 (11), 1495–1503. doi:10.2967/jnumed.120.261016

  • Bremsstrahlung X-rays as a non-invasive tool for ion beam monitoring, Ralite F, Koumeir C, Guertin A, Haddad F, Mouchard Q, Servagent N, et al.. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. août 2021;500‑501:76‑82.doi:10.1016/j.nimb.2021.05.013

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