b'Outline of the multiscale, multi-modal characterization workflow conducted in this investigation on reactor structural materials corroded in UCl-containing and UCl-absent molten chloride salt mixtures. TALENT PIPELINE: PRESENTATIONS:Trishelle Copeland-Johnson, T. M. Copeland-Johnson, D. J. Murray, G. Cao, L. He, Assessing the Interfacial Glenn T. Seaborg Distinguished PostdoctoralCorrosion Mechanism of Inconel 617 in Chloride Molten Salt Corrosion using Fellow at INL, converted to staff Multi-Modal Advanced Characterization Techniques, Fronters in Nuclear Xavier Quintana, student at OregonEngineering: Rising Stars in Nuclear Materials, 2022. State University T. M. Copeland-Johnson, D. J. Murray, G. Cao, L. He, Correlated Characterization of Ni-based Superalloys Corroded in Uranium-containing Molten Salt Systems, Materials Science & Technology Technical Meeting & Exhibition, October 9-12, 2022. T. M. Copeland-Johnson, G. Cao, D. J. Murray, L. He, Characterizing internal crack propagation mechanism of Inconel commercial alloys corroded in chloride molten salts, International Cooperative Group on Environmentally Assisted Cracking of Water Reactor Materials, May 29-June 3, 2022.T. M. Copeland-Johnson, D. J. Murray, G. Cao, L. He, Elucidating the Corrosion Mechanism of Ni-based Superalloys in UCl3 Chloride Molten Salt, Sixth International Workshop on Structural Materials for Innovative Nuclear Systems, September 12-15, 2022.T. M. Copeland-Johnson, M. Woods, R. Gakhar, G. Cao, L. He, Multi-Modal Characterization of Interfacial Corrosion of Ni-based Alloys in Chloride-based Molten Salts, The Metals, Minerals, and Materials Society Annual Meeting, February 28-March 3, 2022.53'