John A. Rogers
John A. Rogers | |
---|---|
Born |
Rolla, Missouri | August 24, 1967
Residence | U.S. |
Nationality | American |
Fields | Chemistry, Applied physics, Materials Science, Bioengineering |
Institutions | University of Illinois until August 2016, Northwestern University starting September 2016 |
Alma mater | University of Texas at Austin; M.I.T. |
Doctoral advisor | Keith A. Nelson |
Known for | The contributions in the fields of soft lithography, microfabrication, microfluidics, nanotechnology, and Flexible electronics. |
Notable awards |
John A. Rogers is a physical chemist and a materials scientist at the University of Illinois at Urbana-Champaign until the summer of 2016. In September 2016 Professor Rogers begin his tenure at Northwestern University.
Education
Professor John A. Rogers obtained BA and BS degrees in chemistry and in physics from the University of Texas, Austin, in 1989. From MIT, he received SM degrees in physics and in chemistry in 1992 and the PhD degree in physical chemistry in 1995. From 1995 to 1997, Rogers was a Junior Fellow in the Harvard University Society of Fellows. During this time he also served as a founder and Director of Active Impulse Systems, a company that commercialized technologies developed during his PhD work. He joined Bell Laboratories as a Member of Technical Staff in the Condensed Matter Physics Research Department in 1997, and served as Director of this department from the end of 2000 to 2002. He currently holds a Swanlund Chair, the highest chaired position at the University of Illinois at Urbana/Champaign. He has a primary appointment in the Department of Materials Science and Engineering, with joint appointments in the Departments of Chemistry, Bioengineering, Mechanical Science and Engineering, and Electrical and Computer Engineering. He served as the Director of a Nanoscale Science and Engineering Center on nanomanufacturing, funded by the National Science Foundation, from 2009-2012. He is currently Director of the Seitz Materials Research Laboratory.
Starting in September 2016, Professor Rogers will hold the Louis Simpson and Kimberly Querrey Professor of Materials Science and Engineering, Biomedical Engineering and Medicine in addition to leading the new Center for Bio-Integrated Electronics.[1]
Current research
Rogers' research seeks to understand and exploit interesting characteristics of 'soft' materials, such as polymers, liquid crystals, and biological tissues as well as hybrid combinations of them with unusual classes of micro/nanomaterials, in the form of ribbons, wires, membranes, tubes or related. The aim is to control and induce novel electronic and photonic responses in these materials; and also develop new 'soft lithographic' and biomimetic approaches for patterning them and guiding their growth. This work combines fundamental studies with forward-looking engineering efforts in a way that promotes positive feedback between the two. Current research focuses on soft materials for conformal electronics, nanophotonic structures, microfluidic devices, and microelectromechanical systems, all lately with an emphasis on bio-inspired and bio-integrated technologies. These efforts are highly multidisciplinary, and combine expertise from nearly every traditional field of technical study.[2]
Awards and achievements
Rogers’ research includes fundamental and applied aspects of nano and molecular scale fabrication as well as materials and patterning techniques for unusual electronic and photonic devices, with an emphasis on bio-integrated and bio-inspired systems. He has published more than 450 papers, and is an inventor on over 80 patents and patent applications, more than 50 of which are licensed or in active use by large companies and startups that he has co-founded, including Active Impulse Systems, Semprius, MC10, CoolEdge, XCeleprint and Transient Electronics.
He has received many recognitions and awards for his research, with early examples that include election to the first TR100, a list of the top 100 young innovators compiled by MIT's Technology Review Magazine (1999), Harvard University's Robert B. Woodward Scholar Award (2001), and the American Chemical Society’s Team Innovation Award (2002).
More recently he received the A.C. Eringen Medal of the Society for Engineering Science (2014), the Smithsonian Award for American Ingenuity in the Physical Sciences (2013), the Robert Henry Thurston Award from the American Society of Mechanical Engineers (2013), the Mid-Career Researcher Award from the Materials Research Society (2013), the Lemelson-MIT Prize (2011), a MacArthur Fellowship from the John D. and Catherine T. MacArthur Foundation (2009), the George Smith Award from the IEEE (2009), the National Security Science and Engineering Faculty Fellowship from the Department of Defense (2008), the Daniel Drucker Eminent Faculty Award from the University of Illinois (2007) and the Leo Hendrick Baekeland Award from the American Chemical Society (2007). Rogers is a member of the National Academy of Engineering (NAE; 2011) and the American Academy of Arts and Sciences (AAAS; 2014), a Fellow of the Institute for Electrical and Electronics Engineers (IEEE; 2009), the American Physical Society (APS; 2006), the Materials Research Society (MRS; 2007), the American Association for the Advancement of Science (AAAS; 2008) and the National Academy of Inventors (NAI; 2013).
Rogers won the Lemelson-MIT Prize in 2011.[3] In 2013, he received a doctorate honoris causa from the École polytechnique fédérale de Lausanne (EPFL). Rogers was the 2013 recipient of Smithsonian magazine's American Ingenuity Award in the Physical Science category.
References
- ↑ Fellman, Megan. Northwestern University http://www.northwestern.edu/newscenter/stories/2015/08/bioelectronics-pioneer-john-rogers.html. Retrieved 20 January 2016. Missing or empty
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(help) - ↑ http://rogers.matse.illinois.edu/
- ↑ http://web.mit.edu/newsoffice/2011/rogers-lemelson-500k.html
Further reading
- McFarlin, Jim (Summer 2013). "Wired". Illinois Alumni. Urbana, IL: University of Illinois Alumni Association. 25 (4): 32–36. ISSN 1096-5866.