Brandon Radoman-Shaw
Lecturer
Ph.D., Geological Sciences, Case Western Reserve University, 2019
Research Interests: geochemistry, planetary Geology, Mineralogy, Petrology, Meteoritics
Office: ELA 368
Phone: 512.245.7980
Email: fsp14@txstate.edu
Vita HB2504 Information
Courses Taught:
GEOL 1410
GEOL 1420
GEOL 3410
Publications
Radoman-Shaw, B.G., Harvey, R.P., Costa, G., Jacobson, N.S., Avishai, A., Nakley, L.M. and Vento, D. (2022), Experiments on the reactivity of basaltic minerals and glasses in Venus surface conditions using the Glenn Extreme Environment Rig. Meteorit Planet Sci, 57: 1796-1819.
https://doi.org/10.1111/maps.13902
Costa G.C.C., Jacobson N.S., Lukco D., Hunter G.W., Nakley L., Radoman-Shaw B., Harvey R.P. (2018) Oxidation behavior of stainless steels 304 and 316 under the Venus atmospheric surface conditions. Corrosion Science,
doi: 010106/j.corsci.2018.01.002.
Radoman-Shaw B., Harvey R., Costa G.C.C, Nakley, L., and Jacobson N.S. (2017) Reaction of Basaltic Materials under high-fidelity Venus Surface Conditions using the Glenn Extreme Environment Rig: First Results. NASA Technical Report GRC-E-DAATN31034.
Jacobson N.S., Kulis M., Radoman-Shaw B., Harvey R. Myers D.L., Schaefer L. and Fegley Jr. B., (2017) Thermodynamic Constraints on the Lower Atmosphere of Venus. Earth and Space Chemistry, 1, 422-430.
Costa G.C.C, Jacobson N.S., Lukco D., Hunter G.W., Nakley, L., Radoman-Shaw B., and Harvey R. (2017) Chemical and Microstructural changes in metallic and ceramic materials exposed to Venusian Surface Conditions. NASA Technical Report NASA/TM-2017-219437.