Ashutosh Tiwari
Professor
Material Science
University of Utah
France
Biography
Education Ph.D., Condensed Matter Physics, IIT Kanpur Honors & Awards Tiwari group's Paper was selected for display on the cover page of the "Advanced Electronic Materials". 04/15/2016 Got Invitation to attend the 104'th Indian Science Congress as an Honored Distinguished Guest Speaker. The Indian Science Congress Association, 02/24/2016 Tiwari Group's research was broadcasted on television by ABC4 Utah http://www.good4utah.com/news/local-news/u-of-u-discovery-could-make-electronics-100x-faster . ABC4 Utah, 02/17/2016 Inducted into the Editorial Board of Scientific Reports, which is a journal from Nature Publishing Group. Nature Publishing Group, 04/28/2015 2013 IAAM Medal. Dr. Tiwari was awarded the 2013 IAAM medal by the International Association of Advanced Materials for his notable research contributions in Materials Science and Engineering. The medal was presented by Prof. Hisatoshi Kobayashi, the President of IAAM, at the opening ceremony of the Advanced Materials World Congress (AMWCâ€2013) held on 16â€19 September, 2013 at ÇeÅŸme, Turkey. The award was followed by Dr. Tiwari's IAAM medal lecture "Oxides for Spintronics". International Association of Advanced Materials (IAAM), 09/16/2013 Keynote Speaker-- "National Conference on Electronic Materials and Application" held in Gwalior India. Jiwaji University, India, 06/10/2011 Utah Innovation Finalist. Stoel Rives LLP and the Utah Technology Council, 05/03/2011 Top-20 Most Downloaded Articles of Applied Physics Letters[Appl. Phys. Lett. 98, 102112 (2011)]; -- March 2011 issue. 03/2011 Award of Tenure. University of Utah, 07/01/2010 NSF CAREER Award. NSF, 2008 DNI Grant. Petroleum Research Fund, 2008
Research Interest
My research is on advanced materials for application in a variety of areas including Nano-Electronics, Spintronics, Spin-Caloritronics, Thermoelectrics and Gas Sensors. We use pulsed laser deposition technique for designing new functional materials and smart structures. Our current emphasis is on Oxide and Chalcogenides based 2D materials.
