Angus Wilkinson

Angus Wilkinson

Angus Wilkinson

Professor, School of Chemistry and Biochemistry and School of Materials Science and Engineering
Associate Chair for Operations and Undergraduate Programs

Angus Wilkinson is a professor in the School of Chemistry and Biochemistry and holds a joint appointment with the School of Materials Science and Engineering. Wilkinson obtained his bachelors degree in chemistry from Oxford University in 1988. He was a graduate student with A. K. Cheetham in the Department of Chemical Crystallography /Inorganic Chemistry at Oxford from 1988 until December 1991. His graduate work focused on the application of synchrotron X-ray powder diffraction to problems in solid-state chemistry. 

For the last two years of his graduate studies he held a senior Scholarship from Christ Church, Oxford. From October 1991 until June 1993, Wilkinson was a Junior Research Fellow with Christ Church, Oxford. However, most of this period was spent on leave at the Materials Research Laboratory, University of California Santa Barbara. His work in Santa Barbara focused on the processing and structure of oxide ferroelectric materials. In October 1993 he joined the faculty at the Georgia Institute of Technology as an assistant professor. He received tenure in 1999 and was promoted to full professor in 2004. He is currently Associate Chair for operations in the School of Chemistry and Biochemistry. 

His work at Georgia Tech has been wide ranging. Current projects include the synthesis and characterization of negative thermal expansion ceramics, in-situ studies of cement hydration under oil well conditions (high pressure and temperature) using x-ray and ultrasonic techniques, and the development of reversible carbon dioxide adsorbents. Previous work at Georgia Tech has included an exploration of chiral templates for the synthesis of chiral microporous materials, the low temperature synthesis of ferroelectrics, an exploration of low oxidation state gallium and indium oxide chemistry with a view to finding new ferroelectric and nonlinear optical materials, the development of resonant x-ray scattering methods for use on thermoelectric energy conversion materials, and an examination of cement durability under sulfate attack conditions using high energy x-ray scattering combined with microtomography.

angus.wilkinson@chemistry.gatech.edu

404.894.4036

Office Location:
MoSE 1100J

Chem & BioChem Profile Page

  • Materials Science and Engineering Profile Page
  • Google Scholar

    Research Focus Areas:
  • Materials and Nanotechnology
  • Additional Research:
    Thermoelectric Materials; Metal-Organic Frameworks; Modeling

    IRI Connections:

    Mohan Srinivasarao

    Mohan Srinivasarao

    Mohan Srinivasarao

    Professor, School of Materials Science and Engineering

    Mohan Srinivasarao is a Professor with the School of Materials Science and Engineering. Srinivasarao received his Ph.D. in Chemistry in 1990 from Carnegie Mellon University, a M.Sc in Applied Chemistry in 1981 from PSG College of Technology (University of Madras, India), and a B.Sc in Applied Science in 1979 from Madurai University, India.

    Srinivasarao specializes in physical chemistry of polymers, physics of nematic liquid crystals, optics of liquid crystals, rheology/rheo-optics of polymeric fluids and liquid crystals, polymer/liquid crystal dispersions, various forms of light microscopy including confocal microscopy and photon tunneling microscopy, color science, and nano-optics in the biological world (color of butterfly wings, beetles, moths, and bird feathers).

    Srinivasarao is a member os several professional organizations including the American Chemical Society, Materials Research Society, Optical Society of America, Society of Rheology, American Physical Society, and the American Association for the Advancement

    mohan@mse.gatech.edu

    404.894.9348

    Office Location:
    Love 166

  • MSE Profile Page
  • Google Scholar

    Research Focus Areas:
  • Biobased Materials
  • Biochemicals
  • Biorefining
  • Biotechnology
  • Electronic Materials
  • Pulp Paper Packaging & Tissue
  • Sustainable Manufacturing
  • Additional Research:
    Conducting Polymers; Optical Materials; Bio-Inspired Materials; Advanced Characterization; Biomaterials; Nanocellulose Applications; Biocomposites; Polymer & Fiber

    IRI Connections:

    Sundaresan Jayaraman

    Sundaresan Jayaraman

    Sundaresan Jayaraman

    Professor, School of Materials Science and Engineering

    Sundaresan Jayaraman is a professor in the School of Materials Science and Engineering at the Georgia Institute of Technology. He is also the Founding Director of the Kolon Center for Lifestyle Innovation established at Georgia Tech in October 2016. A pioneer in bringing about convergence between textiles and computing, Jayaraman’s research has led to the paradigm of “Fabric is the Computer.” He is a leader in studying and defining the roles of engineering design, manufacturing and materials technologies in public policy for the nation. 

    Jayaraman and his research students have made significant contributions in the following areas: (i) Smart Textile-based Wearable Systems; (ii) Computer-aided Manufacturing, Automation and Enterprise Architecture Modeling; (iii) Engineering Design and Analysis of Intelligent Textile Structures and Processes; (iv) Design and Development of Knowledge Based Systems (KBS) for textiles and apparel; and (v) Design and Development of Respiratory Protection Systems. His group's research has led to the realization of the world's first Wearable Motherboard™, also known as the “Smart Shirt” (www.smartshirt.gatech.edu). This invention was featured in a Special Issue of LIFE Magazine entitled Medical Miracles for the New Millennium (Fall 1998) as One of the 21 Breakthroughs that Could Change Your Life in the 21st Century. The first Smart Shirt is now part of the Archives of the Smithsonian Museum in Washington, DC. 

    Prior to Georgia Tech, Jayaraman had the privilege of working with Dan Bricklin and Bob Frankston, the Co-Creators of the world’s first spreadsheet – VisiCalc®. VisiCalc was the first “killer app” that transformed the computing industry by bringing computing to the masses through the proliferation of personal computers. During his PhD, he was involved in the design and development of TK!Solver, the world’s first equation-solving program from Software Arts, Inc., Cambridge, MA. He worked there as a Product Manager and then at Lotus Development Corporation (makers of 1-2-3®) in Cambridge, MA. 

    Jayaraman is a recipient of the 1989 Presidential Young Investigator Award from NSF for his research in the area of computer aided manufacturing and enterprise architecture. In September 1994, he was elected a Fellow of the Textile Institute, (UK). His publications include a textbook on computer-aided problem solving published by McGraw-Hill in 1991, ten U.S. patents, and numerous refereed journal papers, and book chapters. As Principal Investigator, he has received nearly $16Million in research funding from a variety of sources including NSF, DARPA, DoD, NIST, CDC, and industry. Dr. Jayaraman served as Technical Editor, Information Technology, for ATI Magazine (now Textile World) from 1995-2003. From May 2000 to October 2004, he was an Editor of the Journal of the Textile Institute and is currently on the Editorial Advisory Board.

    Jayaraman is a founding member of the IOM Standing Committee on Personal Protective Equipment in the Workplace (2005-2013). From December 2008 to February 2011, he served on the Board on Manufacturing and Engineering Design of the National Academies. In February 2011, he became a founding member of the National Materials and Manufacturing Board of the National Academies. He has also served on nine Study Committees for the National Academy of Medicine (formerly Institute of Medicine) and the National Research Council of the National Academies. He is also a founding member of the IEEE Technical Committee on Biomedical Wearable Systems (2004 –2008). In October 2000, Jayaraman received the Georgia Technology Research Leader Award from the State of Georgia. He received The 2018 Textile Institute Research Publication Award for the most outstanding paper published in 2018 in the Journal of the Textile Institute. In December 2019, he received the Inaugural Distinguished Alumni Award from A.C. College of Technology, Chennai, India.

    sundaresan.jayaraman@mse.gatech.edu

    404.894.2461

    Office Location:
    MRDC 4411

    MSE Profile Page

  • Kolon Center for Lifestyle Innovation
  • Google Scholar

    Research Focus Areas:
  • Flexible Electronics
  • Materials and Nanotechnology
  • Miniaturization & Integration
  • Nanomaterials
  • Additional Research:
    Biomedical Devices; wearable devices; smart textiles; Innovation; Industrial Engineering

    IRI Connections:

    C.P. Wong

    C.P. Wong

    C.P. Wong

    Regents' Professor, School of Materials Science and Engineering
    Smithgall Institute Endowed Chair

    Professor C. P. Wong is the Charles Smithgall Institute Endowed Chair and Regents’ Professor. After his doctoral study, he was awarded a two-year postdoctoral fellowship with Nobel Laureate Professor Henry Taube at Stanford University. Prior to joining Georgia Tech, he was with AT&T Bell Laboratories for many years and became an AT&T Bell Laboratories Fellow in 1992. 

    His research interests lie in the fields of polymeric materials, electronic packaging and interconnect, interfacial adhesions, nano-functional material syntheses and characterizations. nano-composites such as well-aligned carbon nanotubes, grahenes, lead-free alloys, flip chip underfill, ultra high k capacitor composites and novel lotus effect coating materials. 

    He received many awards, among those, the AT&T Bell Labs Fellow Award in 1992, the IEEE CPMT Society Outstanding Sustained Technical Contributions Award in 1995, the Georgia Tech Sigma Xi Faculty Best Research Paper Award in 1999, Best MS, PhD and undergraduate Thesis Awards in 2002 and 2004, respectively, the University Press (London) Award of Excellence, the IEEE Third Millennium Medal in 2000, the IEEE EAB Education Award in 2001, the IEEE CPMT Society Exceptional Technical Contributions Award in 2002, the Georgia Tech Class of 1934 Distinguished Professor Award in 2004, Outstanding Ph.D. Thesis Advisor Award in 2005, the IEEE Components, Packaging and Manufacturing Technology Field Award in 2006, the Sigma Xi’s Monie Ferst Award in 2007, the Society of Manufacturing Engineers (SME)’s TEEM Award in 2008, the 2009 IEEE -CPMT David Feldman Outstanding Contribution Award and the 2009 Penn State University Distinguished Alumni Award. The 2012 International Dresden Barkhausen Award (Germany). 

    He holds over 65 U.S. patents, numerous international patents, has published over 1000 technical papers, 12 books and a member of the National Academy of Engineering of the USA since 2000.

    cp.wong@mse.gatech.edu

    404-894-8391

    Office Location:
    Love 367

    Website

  • School of Materials Science and Engineering
  • Research Focus Areas:
  • Materials and Nanotechnology
  • Materials for Energy
  • Solar

  • IRI Connections:

    Seung Soon Jang

    Seung Soon Jang

    Seung Soon Jang

    Professor, School of Materials Science and Engineering
    Director, Computational NanoBio Technology Lab

    Seung Soon Jang joined the School of Materials Science and Engineering at the Georgia Institute of Technology in July 2007. Jang worked at Samsung Electronics and the Materials and Process Simulation Center (MSC) at CalTech performing various researches in nanoelectronics, fuel cell, and interfacial systems as a director of Supramolecular Technology for six years.

    His research interest includes computations and theories to characterize and design nanoscale systems based on the molecular architecture-property relationship, which are especially relevant to molecular electronics, molecular machines, fuel cell technology and biotechnology.

    SeungSoon@mse.gatech.edu

    404.385.3356

    Office Location:
    Love 351

    MSE Profile Page

  • Computational NanoBio Technology Lab
  • Google Scholar

    Research Focus Areas:
  • Computational Materials Science
  • Drug Design, Development and Delivery
  • Hydrogen Production
  • Hydrogen Utilization
  • Molecular, Cellular and Tissue Biomechanics
  • Nanomaterials
  • Additional Research:
    Jang's research interest is to characterize and design nanoscale systems based on the molecular architecture-property relationship using computations and theories, which are especially relevant to designing new biomaterials for drug delivery and tissue engineering. Currently, he is focusing on 1) NanoBio-mechanics for DNA, lipid bilayer, and hydrogel systems; 2) Molecular interaction of Alzheimer proteins with various small molecules. Dr. Jang is also interested in various topics such as nanoelectronics, nanostructured energy technologies for fuel cell, battery and photovoltaic devices.;Computational mechanics; Nanostructured Materials; Polymeric composites; Biomaterials; Fuel Cells; Delivery and Storage

    IRI Connections:

    Dong Qin

    Dong Qin

    Dong Qin

    Professor, School of Materials Science and Engineering and School of Chemistry and Biochemistry

    Dong Qin is Professor in the School of Materials Science and Engineering, with an adjunct appointment in the School of Chemistry and Biochemistry, at the Georgia Institute of Technology (GT). Her academic records include a B.S. in Chemistry from Fudan University, a Ph.D. in Physical Chemistry with Professor Hai-Lung Dai from University of Pennsylvania, a postdoctoral stint with Professor George M. Whitesides at Harvard University, and an MBA from the University of Washington. Qin is a recipient of the GT-Class of 1940 W. Roane Beard Outstanding Teacher Award (2020), GT-Provost Teaching and Learning Fellow Award (2018), GT-Geoffrey G. Eichholz Faculty Teaching Award (2018), 3M Non-Tenured Faculty Award (2015), and GT-CETL/BP Junior Faculty Teaching Excellence Award (2015).

    Qin has pioneered a set of in situ techniques for the characterization of atomic/molecular events on the surface of noble-metal nanocrystals in a liquid phase and under operando conditions. In one example, she established the use of surface-enhanced Raman spectroscopy (SERS) in probing the heterogeneous nucleation and growth of colloidal nanocrystals, as well as catalytic reactions on the surface of designer nanocrystals. Qin is also widely recognized for her many original contributions to the rational synthesis of metal nanocrystals with novel properties. Qin has co-authored 80 scientific papers in peer-reviewed journals, with an h-index of 39. Among them, she is the corresponding author of 33 papers since she started at GT in 2012. Qin is an Associate Editor of Nanoscale (with an impact factor of 7.79), Royal Society of Chemistry (RSC), and also serves on the advisory boards of Journal of Materials Chemistry C and Nanoscale Horizon, RSC. In 2021, Qin was elected a Fellow of Royal Society of Chemistry (FRSC). Founded in 1841, RSC is the largest organization in Europe for advancing the chemical sciences.

    dong.qin@mse.gatech.edu

    404.385.2182

    Office Location:
    MoSE 3100N

    MSE Profile Page

  • Qin Lab
  • Google Scholar

    Research Focus Areas:
  • Materials and Nanotechnology
  • Additional Research:
    Plasmonics; shape-controlled nanocrystals; Catalysis; in situ characterization; Advanced Characterization; Soft lithography

    IRI Connections:

    Gleb Yushin

    Gleb Yushin

    Gleb Yushin

    Professor, School of Materials Science and Engineering

    Gleb Yushin is a Professor at the School of Materials Science and Engineering at Georgia Institute of Technology and a Co-Founder of several companies, including Sila Nanotechnologies, Inc.. For his contributions to materials science, Yushin has received numerous awards and recognitions, including Kavli Fellow Award, R&D 100 Award (Y-Carbon's application), Honda Initiation Grant Award, National Science Foundation CAREER Award, Air Force Office of Scientific Research Young Investigator Award, and several distinctions from National Aeronautics and Space Administration (NASA), such as Nano 50 Award. Dr. Yushin has co-authored over 30 patents and patent applications, over 100 invited presentations and seminars and over 100 publications on nanostructured Electronic Materials related applications, including papers in Science, Nature Materials and other leading journals. His current research is focused on advancing energy storage materials and devices for electronics, transportation and grid applications.

    gleb.yushin@mse.gatech.edu

    404.385.3261

    Office Location:
    Love 371

    YUSHIN GROUP

  • MSE Profile Page
  • Google Scholar

    Research Focus Areas:
  • Energy
  • Energy Generation, Storage, and Distribution
  • Energy Storage
  • Materials & Manufacturing
  • Materials and Nanotechnology
  • Materials for Energy
  • Miniaturization & Integration
  • Nanomaterials
  • Additional Research:
    CharacterizationMeasurementsPhotovoltaicsPolymersProcessing, Fabrication, & ManufacturingSynthesis

    IRI Connections:

    Rosario Gerhardt

    Rosario Gerhardt

    Rosario Gerhardt

    Professor and Goizueta Foundation Faculty Chair, School of Materials Science and Engineering

    Rosario A. Gerhardt joined the faculty of Georgia Tech as associate professor in January 1991.  She was promoted to full professor in 2001.  Prior to coming to Georgia Tech she worked as an assistant research professor at the Center for Ceramics Research at Rutgers University from 1986-1990 and as a post-doctoral research associate at Rutgers for two years and at Columbia University in New York City for one year.  She also worked as an ASEE/NASA Faculty Fellow at the NASA Marshall Space Flight Center in Huntsville, AL during summer 1995 and as a visiting professor at the Center for Nanomaterials Science (CNMS) at Oak Ridge National Laboratory in Oak Ridge, TN during the 2007-2008 academic year. She regularly interacts with researchers at various industrial companies and national laboratories. Her research work has been funded by the National Science Foundation, the U.S. Department of Energy, NASA and various industrial companies.

    Gerhardt's research focuses on determining structure-property-processing relationships in a wide range of materials. Most recently, her research group has focused on making and characterizing polymer and ceramic composites containing conducting and semiconducting nanofillers and on the synthesis and assembly of nanoparticles into thin films useful for use as transparent electrodes, solar cell components, microwave heatable inserts, conductive paper, etc. Over the years, she has worked with a variety of ceramic materials such as dielectric insulators, ionic conductors and ceramic superconductors in bulk and thin film form, as well as with intrinsic conducting polymers. Her work also extends onto non-electronics related materials such as fiber and particulate reinforced composites and metallic alloys that are used for wear applications and as components in the hot-sections of gas turbine engines. Most of her work has dealt with the electrical and microstructural characterization of materials using impedance and dielectric spectroscopy, resistivity measurements, and structural characterization via microscopic techniques such as optical, SEM, TEM and AFM, and x-ray and neutron scattering methods. More recently, her group has also added various optical spectroscopy techniques to their repertoire of characterization methods (FTIR, UV-Vis and Raman).

    Gerhardt is a fellow of the American Ceramic Society (ACeRS) and a member of the Materials Research Society(MRS), the IEEE/Dielectrics Division and Instrument and Measurement Division, the Metallurgical Society(TMS), the American Association for the Advancement of Science (AAAS), the American Society for Non-Destructive Testing (ASNT), the International Microelectronics and Packaging Society(IMAPS) and the Microscopy Society of America(MSA). She is also a member of Sigma Xi, Keramos and Tau Beta Pi. She has been active as an executive officer of the Electronics Division of the American Ceramic Society, having served as Chair of that division during the 2000-2001 year and on other capacities since then. She also serves as the faculty advisor for the Student Chapter of ACeRS and MRS at Georgia Tech and has been co-organizer of numerous symposia both at ACerS, MRS and other societies. She is a member of the National Research Council Associateship Panel Review Program. She is the author or co-author of over 200 refereed publications and has served as research advisor to more than 40 graduate students. Gerhardt and one of her students recently received one of the 2011 ASNT fellowship awards. 

    One of Gerhardt’s long term research goals is to establish that electrical measurements can be used as a non-destructive method for microstructural characterization at all length scales. She was the leading organizer of a symposium series on the same subject at the Materials Research Society Meetings during the 1995, 1997 and 2001 Fall Meetings from which three proceedings books were published (MRS Proc. Vols. 411, 500 and 699). In addition, she teaches a graduate course at Georgia Tech (MSE7140) where she covers the theory and applications of impedance spectroscopy from the microstructural point of view.  She is currently writing a textbook on this subject, which is due to be published in 2013.  She is also the editor of a recent book entitled “Properties and Applications of Silicon Carbide” that was published by In-Tech publications in 2011

    rosario.gerhardt@mse.gatech.edu

    404.894.6886

    Office Location:
    Love 168

    MSE Profile Page

    Google Scholar

    Research Focus Areas:
  • Biobased Materials
  • Biochemicals
  • Biorefining
  • Biotechnology
  • Electronic Materials
  • Pulp Paper Packaging & Tissue
  • Sustainable Manufacturing
  • Additional Research:
    Advanced Characterization; Ceramics; Conducting Polymers; Plasmonics; Nanostructured Materials; Printing Technology; Nanocellulose Applications; Films & Coatings; Biomaterials

    IRI Connections:

    Preet Singh

    Preet Singh

    Preet Singh

    Professor, School of Materials Science and Engineering
    Associate Chair of Graduate Studies, School of Materials Science and Engineering

    Prior to joining MSE in July 2003 Professor Singh was a faculty member in Corrosion and Materials Engineering Group at The Institute of Paper Science and Technology (IPST) since 1996.  While in IPST Singh worked on fundamental as well as applied research projects related to the corrosion problems in the pulp and paper industry. From 1990 to 1996, he was a Senior Research Associate at Case Western Reserve University, Cleveland, Ohio, working on various materials and corrosion related research projects, including damage accumulation in metal matrix composites (MMCs), Environmental sensitive fracture of Al-alloys MMCs, and High temperature oxidation of Nb/Nb5Si3 composites. He received the Alcan International's Fellowship in 1988-90 to work on "Effects of Low Melting Point Impurities on Slow Crack Growth in Al Alloys,"  He has published over 50 papers in reputed scientific journals and conference proceedings. He is active member of NACE, TMS, TAPPI and has co-organized a number of international symposiums.

    Reliable performance of the materials is very important for any industrial process and especially for the chemical process industry for the manufacture of a high quality product. Material selection is generally based on the required material properties, low initial capital investment, and minimum maintenance. Changes in the process parameters to improve products can often lead to higher corrosion susceptibilities of the plant materials. Moreover, with increase in capital cost, there is pressure to extend the life of existing plant equipment beyond its original design life. Corrosion and Materials Engineers are also playing a key role in selecting, maintaining, and modifying materials for changing needs for every industry. Corrosion Science and Engineering research includes understanding the basic mechanisms involved in material degradation in given environments and using that knowledge to develop a mitigation strategy against environment-induced failures

    preet.singh@mse.gatech.edu

    404.894.6641

    Office Location:
    IPST 246

    Corrosion and Materials Lab

  • MSE Profile Page
  • Google Scholar

    Research Focus Areas:
  • Biobased Materials
  • Biochemicals
  • Biorefining
  • Biotechnology
  • Materials and Nanotechnology
  • Pulp Paper Packaging & Tissue
  • Renewable Energy
  • Sustainable Manufacturing
  • Additional Research:
    Composites; fracture and fatigue; stress corrosion; Materials Failure and Reliability; Biofuels; Chemical Recovery; Environmental Processes; Sustainable Manufacturing; Energy & Water; Corrosion & Reliability

    IRI Connections:

    Mark Losego

    Mark Losego

    Mark Losego

    Associate Professor, MSE Faculty Fellow, and Dean’s Education Innovation Professor
    IMS Initiative Lead, AI for Chemicals and Materials Discovery

    Mark D. Losego is an associate professor in the School of Materials Science and Engineering at Georgia Tech. The Losego research lab focuses on materials processing to develop novel organic-inorganic hybrid materials and interfaces for microelectronics, sustainable energy devices, national security technologies, and advanced textiles. The Losego Lab combines a unique set of solution and vapor phase processing methods to convert organic polymers into organic-inorganic hybrid materials, including developing the science to scale these processes for manufacturing.  Prof. Losego’s work is primarily experimental, and researchers in his lab gain expertise in the vapor phase processing of materials (atomic layer deposition, physical vapor deposition, vapor phase infiltration, etc.), the design and construction of vacuum equipment, interfacial and surface science, and materials and surface characterization. Depending on the project, Losego Lab researchers explore a variety of properties ranging from electrical to electrochemical to optical to thermal to sorptive to catalytic and more.

    losego@gatech.edu

    404.385.3630

    Research Website

  • Related Site
  • Research Focus Areas:
  • Biobased Materials
  • Biochemicals
  • Biorefining
  • Biotechnology
  • Electronic Materials
  • Pulp Paper Packaging & Tissue
  • Sustainable Manufacturing
  • Additional Research:
    Catalysis; Cellulose Nanomaterials; Coatings; Coatings and Barriers; Corrosion & Materials Engineering; Corrosion and Reliability; Energy; Films and Coatings; Microporous Materials; Nanocellulose Applications; Nanomaterials; New Materials; Polymers; Vapor Phase Processing

    IRI Connections: