b'TALENT PIPELINE: PRESENTATIONS:Drew Glenna, student at University of IdahoGlenna, D. M., M. Lawson, H. Zhao, Corrosion Chemistry and Control in Molten Trishelle Copeland-Johnson, NaCl-MgCl Salts, ANS Transactions 125(1) (2021) 131-134.Glenn T. Seaborg Distinguished Postdoctoral Fellow,Copeland-Johnson, T. M., D. J. Murray, G. Cao, Correlated characterization of converted to staff Ni-based superalloys corroded in uranium-containing molten salt systems, Fei Teng, researcher at INL MS&T22: Materials Science & Technology: Tackling Structural Materials Challenges for Advanced Nuclear Reactors 2022.Copeland-Johnson, T. M., M. E. Woods, R. Gakhar, D. J. Murray, G. Cao, L. He, Multi-Modal Characterization of Interfacial Corrosion of Ni-based Alloys in Chloride-based Molten Salts, The Minerals, Metals, and Materials Society 2022 Symposium on Materials and Chemistry for Molten Salt Systems 2022.1200 disproportionation 4disproportionation 4 3stable10003 =U+3UCl 3Temperature, K UClstable 3 3 =U+3UF 4UF UF 34UCl800UCl UF6004002001E-5 1E-4 0.001 0.01 0.1 1 10 100Ratio of U 4+ /U 3+(left) Corrosion of Alloy 617 in NaCl-MgCl salt at 700C for 1000hrs, showing the aluminum as an oxygen getter which forms alumina, mitigating the corrosion of Alloy 617. (right) Density functional theory modeling result of UCl and UF showing the tremendous disproportionation and chemical stability difference of UCl and UF, suggesting the different requirements for molten salt reactors using chloride and fluoride salts.57'