Dr. Joanna R. Groza
JOANNA R. GROZA is professor of materials science and engineering at the University of California, Davis. Her research interests are in electrical field/current activated sintering – to understand the effects of electrical field application in powder sintering; control of field activated sintering technique process to achieve optimum final properties; sintering of nanocrystalline materials with emphasis on biomaterials; processing – microstructure – property relationships to improve the basic knowledge of materials behavior in high-temperature and fatigue conditions (e. g., in nanocomposites); and abnormal grain growth in polymorphic materials. Dr. Groza received an M.S. in metallurgy engineering and a Ph.D. in physical metallurgy from the University Politehnica of Bucharest which she attended from 1968 to 1973.
Ms. Agnes C. Klucha
AGNES CHAU KLUCHA is the Senior Director, Engineering for the Sensors and Integrated Systems business unit at UTC Aerospace Systems, one of the world’s largest suppliers of technologically advanced aerospace and defense products. She has responsibility for engineering leadership of the Inertial Control and Aircraft Management Systems (ICAMS) business segment. During her 21-year career at UTC, Agnes has held various engineering and management roles at UTC Aerospace Systems and Pratt and Whitney. Previous positions included Flight Test Engineer, Joint Strike Fighter Test Planning Manager, leadership of Tiger Teams to resolve top technical issues, and “intrapreneur” in the creation of the Engineering Innovation Center to pursue advanced manufacturing and design technologies, with a special focus on additive manufacturing. Agnes led the initiative to establish the University of Connecticut/Pratt and Whitney Additive Manufacturing Innovation Center. Ms. Klucha is the 2011 Connecticut Woman of Innovation winner in the Large Business Innovation and Leadership category, a 2015 STEP (Science, Technology, Engineering and Production) Award Honoree, a national event sponsored by The Manufacturing Institute, and a 2015 Society of Women Engineers’ Advocating Women in Engineering Award winner. Ms. Klucha received a B.A. in engineering science – aerospace engineering – from the University of Toronto and an M.B.A. from the University of Massachusetts at Amherst.
Dr. Subhash Mahajan
SUBHASH MAHAJAN (NAE) is a Distinguished Professor in the Department of Materials Science and Engineering, University of California, Davis, and was a Special Adviser to the Chancellor. Dr. Mahajan’s research focuses on two thematic areas: functional materials and deformation behavior of solids. He has held positions at the University of Denver; The Atomic Energy Research Establishment, Harwell, England; Bell Telephone Laboratories, Murray Hill; Carnegie Mellon University; and Arizona State University (ASU). At ASU, he was chair of the Department of Chemical and Materials Engineering (2000 to 2006), and was the founding director of the School of Materials (2006 to 2009). In 2007, he became an ASU regent’s professor. He was a senior adviser to the dean of Engineering at ASU from 2009 to 2010. Dr. Mahajan has extensive experience in editorial work: he was an associate editor of Metallurgical and Materials Transactions (1984 to 1997); founded Materials Science and Engineering B in 1988 and managed it until 2000; has served as editor of Acta Materialia from 2000 to 2016; and the coordinating editor of Acta Journals from 2004 to 2016. He edited the Handbook on Semiconductors in 1994, and co-edited a number of encyclopedias: Concise Encyclopedia of Semiconducting Materials and Related Technologies: The Encyclopedia of Advanced Materials; and The Encyclopedia of Materials. He also co-authored an undergraduate text book on Principles of Growth and Processing of Semiconductors. Over the years, he has received numerous awards for excellence in research and education: Fellow of ASM, TMS, and MRS; Albert Sauveur Achievement Award from ASM; ASM Gold Medal; and the John Bardeen and Educator Awards from TMS. He delivered the Campbell Memorial and Lee Hsun Lectures, respectively, for ASM and the Chinese Academy of Sciences. He is a member of the National Academy of Engineering. Dr. Mahajan obtained his B.Sc. (physics, chemistry and mathematics) and B.E. (metallurgy), respectively, from Punjab University and the Indian Institute of Science with the highest honors. He received a Ph.D. in materials science and engineering from theUniversity of California, Berkeley in 1965.
Dr. Christian Mailhiot
Lawrence Livermore National Laboratory
CHRISTIAN MAILHIOT is a professor in the College of Arts and Sciences; and director of the Center for Research Computing, at the Washington State University. Dr. Mailhiot is responsible for the development of a WSU-wide -- and extramural -- program in high performance scientific modeling and simulation and cyberscience. The establishment of partnerships with National Laboratories, the high-performance scientific computing community, and industry will be a key factor in this endeavor. Prior to joining Washington State University, Dr. Mailhiot was a senior technical manager at Lawrence Livermore National Laboratory (LLNL). He has worked in the areas of theoretical and computational condensed matter physics, ab initio many--body calculations of materials, atomic and electronic structure of materials, electronic structure theory and optical properties of semiconductor superlattices and synthetically modulated quantum-confined structures, semiconductor physics, surface and interface science, static and dynamic pressure-induced phase transformations, ab initio and quantum molecular dynamics, and quantum many-body simulations of materials. He received his B.Eng. in Engineering Physics in 1978 from L’École Polytechnique de Montréal in Canada. He obtained his M.S. (1980) and Ph.D. (1983) in Applied Physics from the California Institute of Technology, Pasadena, CA. From 1983 through 1989, he was a member of the technical staff at the Xerox Webster Research Center in Webster, NY, where he worked in the field of semiconductor and solid-state physics. In 2003, he was elected a fellow of the American Physical Society, Division of Materials Physics. He serves on numerous editorial boards and review and scientific advisory committees.
Dr. Karin M. Rabe
KARIN M. RABE (NAS) is the Board of Governors Professor of Physics at Rutgers, The State University of New Jersey. Dr. Rabe's research interests center on the use of computation and theory in the design and discovery of new functional materials. Using computational methods to solve the quantum mechanics of crystalline solids from first principles, Dr. Rabe studies systems at or near structural, electronic and magnetic phase transitions, including ferroelectrics, antiferroelectrics, piezoelectrics, high-k dielectrics, multiferroics and shape-memory compounds. The high sensitivity of such materials to applied fields and stresses gives rise to functional behavior with a broad range of technological applications, including information and energy storage and conversion. Dr. Rabe has a particular interest in the properties of non-bulk structures stabilized in strained thin layers and the distinctive properties of interfaces in superlattices and other artificially structured systems, which are most efficiently explored by first-principles-based modeling. She has published more than 150 papers in the theoretical analysis and prediction of the structure and properties of materials, with successful application to the design of new functional materials. She was president of the Aspen Center for Physics from 2013-2016. Her professional recognitions include fellowship in the American Physical Society (2003), the David Adler Lectureship Award in Materials Physics from the American Physical Society (2008), fellowship in the American Association for the Advancement of Science (2011) and membership in the American Academy of Arts and Sciences (2013).
Dr. Susan B. Sinnott
SUSAN SINNOT is a professor and department head of Materials Science and Engineering at Pennsylvania State University. Dr. Sinnott received her B.S. degree in chemistry from the University of Texas in 1987 and her Ph.D. in physical chemistry from Iowa State University in 1993. From there, she joined the Naval Research Laboratory, Surface Chemical Branch, in Washington D.C. as a National Research Council Post-Doctoral Associate until 1995. Dr. Sinnott then became an assistant professor in the Department of Chemical and Materials Engineering at the University of Kentucky through 2000 when she began her tenure at the University of Florida. There she was an associate professor of materials science and engineering until her promotion in 2005 to the rank of professor of materials science and engineering. In 2007 she became an Affiliate Professor in the Department of Mechanical and Aerospace engineering, and in 2012 she was named the Alumni Professor of Materials Science. Dr. Sinnott also became a member of the Quantum Theory Project in 2011 and the Director of the Cyberinfrastructure for Atomistic Simulation (CAMS) in 2012. In 2015 Dr. Sinnott joined the Pennsylvania State University. Dr. Sinnot's research is focused on the use of electronic structure calculations and atomistic simulations to optimize the processing 'and properties of materials. Her research interests include examining the chemical modification of polymer surfaces through mass-selected ion-beam deposition, exploring the dynamics associated with the growth of thin films, developing new methodologies for the atomistic simulation of materials, using atomic-scale simulations to study the catalytic behavior of metal clusters, investigating the molecular origin of friction and wear at interfaces, and combining electronic structure and thermodynamic calculations to predict defect formation in metal oxides. Dr. Sinnot is the author of over 160 technical publications, including over 140 journal publications and eight book chapters; she has also delivered over 120 invited presentations. She is a member of AVS, ACerS ACS, APS, MRS, and AAAS, and was named a fellow of AVS in 2005. She was named a fellow of ACerS in 2011 and a fellow of the AAAS in 2010.
Dr. Ephraim Suhir
EPHRAIM SUHIR is professor in the Departments of Mechanical and Materials Engineering and Electrical and Computer Engineering at the Portland State University, Portland, OR. He ia also the chief operating officer of ERS Co., Los Altos, CA. His areas of expertise include applied mathematics, applied and mathematical physics, materials science and engineering, applied mechanics; applied probability, probabilistic analyses and probability-based physical designs of electron devices; probabilistic methods in reliability engineering, probabilistic risk assessment and management; analytical (mathematical) modeling in applied science and engineering; shock and vibration analyses and testing; and dynamic response of materials and structures to shocks and vibrations. He has a M.S. in naval architecture from the Polytechnic Institute, Odessa, Ukraine; and a Ph.D. in mechanics and mathematics from the Moscow State University, Moscow, Russia.
Dr. Naresh N. Thadhani
NARESH N. THADHANI is professor and chair of the School of Materials Science and Engineering at the Georgia Institute of Technology. He is internationally recognized for his research in shock-compression and high-strain-rate deformation behavior of materials and for his services to the materials science and shock physics communities. His research has focused on studies of fundamental mechanisms of shock-induced physical, chemical, and mechanical changes in materials for processing of novel materials under extreme high-pressure conditions, and for probing the deformation, fracture, and ballistic response of metals, ceramics, polymers, and composites, subjected to impact and other high-strain-rate loading conditions. Dr. Thadhani has been recognized as fellow of ASM International based on his contributions in "materials effects of shock compression" and of the American Physical Society based on his "contributions in shock physics of materials." Dr. Thadhani received a B.E. in metallurgical engineering from the University of Rajasthan, India, in 1980; an M.S. in metallurgical engineering from South Dakota School of Mines and Technology in 1981; and a Ph.D. in physical metallurgy from New Mexico Institute of Mining and Technology in 1984.
Dr. Edwin L. Thomas
EDWIN L. THOMAS (NAE) is the E.D. Butcher Chair of Engineering and Professor of Materials Science and NanoEngineering in the George R. Brown School of Engineering at Rice University. Professor Thomas carries out research on photonics, phononics, interference lithography and mechanical behavior of microtrusses, polymer physics and engineering of the mechanical and optical properties of block copolymers, liquid crystalline polymers, and hybrid organic-inorganic nanocomposites. One area of special interest is photonics and the fabrication of polymeric photonic crystals using self-assembly, especially with block copolymers, and holographic interference lithography. For these studies, large emphasis is placed on the understanding of complex relations between the lattice symmetry and optical properties of periodic structures. Another area of particular focus is phononics. His group is exploring the way light and sound propagate in quasicrystalline photonic and phononic structures. Other major topics in Professor Thomas’ research are structured polymers. His structured materials research concentrates on enhancing our ability to fabricate complex structures with characteristic length in submicron and nanometer range in order to create materials with superior properties that can be tailored to a particular application. Understanding the influence of composition and processing conditions on the resultant microstructure of polymers and how this determines the properties is the central part of his polymer morphology research. Professor Thomas is the recipient of the 1991 High Polymer Physics Prize of the American Physical Society and the 1985 American Chemical Society Creative Polymer Chemist Award. He was elected a fellow of the American Physical Society in 1986 and a fellow of the American Association for the Advancement of Science in 2003 and Inaugural Fellow of the Materials Society in 2008. In 2009 he was elected to both the National Academy of Engineering and the American Academy of Arts and Sciences. He coauthored the undergraduate textbook The Structure of Materials and a research monograph, Periodic Materials: Photonics, Phononics and Mechanics, and has published over 450 papers and holds 20 patents. Professor received a Ph.D. in materials science from Cornell University in 1974, and a B.S. in mechanical engineering and engineering science from the University of Massachusetts in 1969.