Karen Gleason Explained

Karen Klincewicz 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]

Gleason was elected a member of the National Academy of Engineering in 2015 for invention, application development, scale-up, and commercialization of chemically vapor deposited polymers.

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. 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. Gleason's research on CVD has led to novel antifouling coatings for membranes, to inhibit biofilm development, through the use of zwitterionic moieties. She has also made significant advances in other organic surfaces and devices.

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

Notes and References

  1. Web site: Professor Karen K. Gleason, Associate Dean of Engineering for Research, Alexander and I. Michael Kasser Professor of Chemical Engineering . Gleason Group Researchers . 2015-04-21 . dead . https://web.archive.org/web/20131114183955/http://web.mit.edu/gleason-lab/personnel_kkg.htm . November 14, 2013 .
  2. Web site: Karen Klincewicz Gleason CV . MIT . 2015-04-21 . dead . https://web.archive.org/web/20140319055700/http://web.mit.edu/gleason-lab/Gleason_CV_Dec_2007.pdf . March 19, 2014 .
  3. Web site: Karen K. Gleason, Cambridge US - Patent applications. Patentdocs. 2015-04-21.
  4. Web site: Efficiency from hydrophobic surfaces. Solve For X. 2015-04-21. https://archive.today/20140319014206/https://www.solveforx.com/moonshots/karen-gleason-efficiency-from-hydrophobic-surfaces. 2014-03-19. dead.