CV
- Ph.D. in Chemistry, The University of Texas at Austin, 2018
- Dissertation: “New phosphine coordination materials for application in sensing, catalysis and gas storage”
- M.Chem. Chemistry with Study in North America, The University of Sheffield, 2014
- Thesis: "The synthesis of nickel dithiolene complexes and alternate routes to pentafluorophenyl acetylene"
- Carnegie Institute for Science, Earth and Planets Laboratory
Postdoctoral Research Fellow (2021 - Present)
- The University of Texas at Austin
Specialist (2020 - 2021)
- Lantha Sensors
VP, Technology Development (2019 - 2020)
- The University of Texas at Austin
Assistant Professor of Instruction/Post-Doctoral Scholar (2019)
- 2018: Professional Development Award, The University of Texas at Austin
- 2017: Hamilton/Schoch Fellowship, The University of Texas at Austin
New, original technique predicts and guides the ordered creation of strong, yet flexible, diamond nanothreads, surmounting several existing challenges.
Below we will explore exactly how we are studying extreme materials on campus. But first, a little history.
Sam Dunning is a metal-organic framework chemist who uses molecular and non-molecular precursors for the high-pressure synthesis of new materials.