Brandon received his doctorate in chemistry in late 2015 from the University of California Irvine. His dissertation focused on developing quantum chemistry tools and applying them to chemical problems including the design of in vivo imaging candidates based on the machinery found in fireflies and the reactivity of transition metal, lanthanide, and actinide compounds. Brandon joined CCSE in January 2017.
- Density functional theory, time-dependent density functional theory
- High-performance algorithm design, implementation
- Non-adiabatic dynamics of photochemical systems
- Transition- and heavy-metal reactivity
- Machine learning in quantum chemistry
- Accelerating molecular property calculations with nonorthonormal Krylov space methods
F Furche, BT Krull, BD Nguyen, J KwonThe Journal of Chemical Physics 144 (17), 174105, 2016.
- Structural, spectroscopic, and theoretical comparison of traditional vs recently discovered Ln2+ ions in the [K (2.2. 2-cryptand)][(C5H4SiMe3) 3Ln] complexes: the variable nature of Dy2+ and Nd2+
ME Fieser, MR MacDonald, BT Krull, JE Bates, JW Ziller, F Furche, WE EvansJournal of the American Chemical Society 137 (1), 369-382, 2014.