Shen J Dillon

Shen J Dillon
Shen J Dillon
Adjunct Professor
Adjunct Professor

For more information

Professional Highlights

  • Shen J. Dillon is an Associate Professor in the Department of Materials Science and Engineering at the University of Illinois at Urbana-Champaign. He received his B.S. and Ph.D in Materials Science and Engineering from Lehigh University in 2007. He worked as a Research Associate at Carnegie Mellon University and a Visiting Research Scientist at the Massachusetts Institute of Technology. He joined the faculty at the University of Illinois at Urbana-Champaign in 2009. He is the author of over 70 articles, and was a recipient of the 2011 Department of Energy Early Career Award, the 2013 National Science Foundation CAREER Award, and the 2015 American Ceramic Society’s Robert L. Coble Award for Young Scholars.

Research Statement

My research focuses on linking atomic-scale processes in materials to the microstructural level and bulk properties. Much of the current work relates to the role of structure, defects, and interfaces in affecting materials for energy applications. Significant effort is being directed towards developing novel in-situ characterization methods that can serve as platforms for materials development and discovery.

Many critical phenomena that control materials processing and performance occur at interfaces, surface, grain boundaries, and other internal defects. The nature of the structure and dynamics of these interfaces and defects are highly complex and fully understanding them has been an ongoing challenge. As engineered materials become more complex and as microstructural length scales are reduced toward the nanoscale, the role of interfaces has become increasingly important in affecting performance. Many questions about the distributions of interfaces and defects; their structure, chemistry, energy, and effect on bulk properties still remain. Multi-scale approaches are critical for detailing the local structure of defects and their distribution within materials. Ongoing research seeks to apply advanced in situ characterization techniques; particularly in extreme environments such as at high temperatures, in irradiative fluxes, or in large fields. Promoting and exploiting advances in characterization enables new insights into scientific and engineering problems; such as optimizing materials. The development of new scientific paradigms will enable novel approaches to engineering materials of practical importance.

Research Areas

  • Ceramics

Research Topics

Selected Articles in Journals

Research Honors

  • National Science foundation, CAREER award (2013)
  • Department of Energy, Early Career Award (2011)

Recent Courses Taught

  • MSE 395 - Materials Design
  • MSE 401 - Thermodynamics of Materials
  • MSE 445 - Corrosion of Metals
  • MSE 466 - Materials in Electrochem Syst
  • MSE 529 - Hard Materials Seminar