Professor Kim's research has helped to construct much of the modern foundations for a better understanding of the relationship between particle shape and hydrodynamic interactions in a microscale setting. This fundamental perspective is complemented with six years of experience as a senior executive in the pharmaceutical industry for R&D information technologies. Together, these diverse experiences set the framework for the current range of research projects, including the development of new mathematical models for pharmaceutical informatics (bioinformatics, cheminformatics and systems biology) and the investigation of microfluidic-nanofluidic transitions in novel self-assembly processes for ultra low-cost manufacture of radio frequency identification (RFID) tags. Taken in aggregate, these projects form the hardware and software platforms to enable a new cyber infrastructure, namely a societal transformation from the "internet of computers" to a network of all tracked objects.
Awards and Honors
Presidential Young Investigator Award, National Science Foundation, 1985
William O. Baker Award for Initiatives in Research, National Academy of Science, 1992
Allan P. Colburn Award, American Institute of Chemical Engineers, 1993
Induction as Fellow, American Institute for Medical and Biological Engineers
Induction as Member, National Academy of Engineering, 2001
Barnett F. Dodge Lecture, Yale University (2005)
Benton Lecture, Univ. of Florida (2005)
Fredrickson Lecture, University of Minnesota (2006)
Kim, S. and M. Heller, "Emerging Cyberinfrastructure: Challenges for the Chemical Process Community," Computers and Chemical Engineering, 30,1497-1501 (2006).
Kim, S., Microhydrodynamics: Principles and Selected Applications, Dover Publications (2005) (selected for reprint series by the Dover Editorial Board in recognition of "enduring value").
Freeman, P.A., Crawford, D.L., Kim, S. and Munoz, J.L. (2005) "Cyberinfrastructure for science and engineering: promises and challenges," Proceedings of the IEEE,93, 682-691.