Kristie J. Koski

Professor Kristie Koski

Professor Kristie Koski

Assistant Professor
Ph.D. University of California Berkeley

The Koski group is a low-dimensional materials group. We are developing the basic science needed to translate the extraordinary properties of two-dimensional materials into real-world applications. We pursue a fully integrated research program spanning the gamut from solid-state synthesis to fundamental condensed matter physics to applied performance.

koski@ucdavis.edu
222 Chemistry
(530) 752-7884
http://koski.ucdavis.edu

Education, Awards and Professional Highlights

  • Appointed to UC Davis faculty (2016)
  • NSF CAREER Award (2015)
  • Assistant Professor, Brown University (2013-2016)
  • Postdoctoral Associate, Stanford University (2010-2013)
  • Postdoctoral Associate, Arizona State University (2009)
  • Ph.D. University of California Berkeley (2008)

Representative Publications

  • Y. Zhang, B.W. Reed, F.R. Chung, K.J. Koski, Mesoscale elastic properties of marine sponge spicules. J. Struct. Biol. 193, 67-74 (2016).
  • Z. Wang, W. Zhu, Y Qiu, X. Yi, A. van dem Busche, A. Kane, H. Gao, K.J. Koski, R. Hurt, Biological and environmental interaction of emerging two-dimensional nanomaterials. Chem. Soc. Rev. 45, 1750-1780 (2016).
  • K.P. Chen, F.R. Chung, M. Wang, K.J. Koski, Dual Element Intercalation into 2D Layered Bi2Se3 Nanoribbons. J. Am. Chem. Soc. 137, 5431-5437 (2015).
  • S. Keuleyan, M. Wang, F.R. Chung, J. Commons, K.J. Koski, A Silicon-Based Two-Dimensional Chalcogenide: Growth of Si2Te3 Nanoribbons and Nanoplates. Nano Lett. 15, 2285-2290 (2015).
  • M. Wang and K.J. Koski, Reversible Chemochromic MoO3 Nanoribbons through Zero-valent Metal Intercalation. ACS Nano 9, 3226-3233 (2015).
  • B.W. Reed, F.R. Chung, M. Wang, T. LaGrange, and K.J. Koski, Disorder-Order transition in 2D copper-intercalated MoO3 using dynamic transmission electron microscopy. 2D Mater. 1 035001 (2014).