Karen Gleason
Karen K. Gleason is the Associate Provost at the Massachusetts Institute of Technology, where she has also served as the Alexander and I. Michael Kasser Professor of Chemical Engineering, from 2006–present.[1] She has invented over 15 patented designs.[2][3] She has developed a hydrophobic surface that can be applied in energy harvesting.[4]
Academic life
Karen Gleason received her S.B. and S.M. in Chemical Engineering at Massachusetts Institute of Technology in 1982. She earned her Ph.D in Chemical Engineering at the University of California at Berkeley on 1987.[1] During her time as a graduate student, she helped develop the Klincewicz method.
Research
Professor Gleason's research is on Chemical Vapor Deposition (CVD) of thin polymer films.
Personal life
During her time at MIT, she was the captain of the Women's Varsity Swimming team. She received All-American NCAA Division III accolades all her four years as an undergraduate.
Honors and awards
- Chair, 5th International Conference on Hot-Wire Chemical Vapor Deposition, 2008
- Guest Editor of Special Issue on CVD of Polymeric Materials in Chemical Vapor Deposition, 2008
- Donders Visiting Professorship Chair, Utrecht University, Netherlands, 2006
- Excellence Award for Research in Manufacturing and Environment, Safety and Health;sponsored by Semiconductor Research Corporation and International SEMATECH, 2000
- Tenth Annual Van Ness Award Lecturer, Rensselaer Polytechnic Institute, 2000
- Chair, Gordon Conference of Diamond Synthesis, Oxford UK, 1998
- All-American NCAA Division III Swimming, 1978–82
References
- 1 2 "Professor Karen K. Gleason, Associate Dean of Engineering for Research, Alexander and I. Michael Kasser Professor of Chemical Engineering". Gleason Group Researchers. Archived from the original on November 14, 2013. Retrieved 2015-04-21.
- ↑ "Karen Klincewicz Gleason CV" (PDF). MIT. Archived from the original (PDF) on March 19, 2014. Retrieved 2015-04-21.
- ↑ "Karen K. Gleason, Cambridge US - Patent applications". Patentdocs. Retrieved 2015-04-21.
- ↑ "Efficiency from hydrophobic surfaces". Solve For X. Retrieved 2015-04-21.