Hicham Drissi is a professor in the Department of Orthopaedics at Emory University School of Medicine. He holds a Ph.D. from Paris Descartes University.

Our interests lie in the adhesion and signaling molecules of the immune system as well as those involved in platelet adhesion and aggregation. We are primarily focused on early cell surface interaction kinetics and their primary signaling responses, as these are critical in determining how a cell will ultimately respond upon contact with another cell. The majority of our work ranges from single molecule interaction studies using atomic force microscopy, molecular dynamics simulations, or biomembrane force probe assays to single cell studies using micropipette adhesions assays, fluorescence imaging techniques, or real-time confocal microscopy. These assays focus on the mechanics and kinetics of receptor-ligand binding and their downstream signaling effects within cells. T cell receptors, selectins, integrins, and their respective ligands are some of the cell surface molecules currently under investigation in our lab. Understanding the initial interaction between molecules such as these and their subsequent early signaling processes is crucial to elucidating the response mechanisms of these physiological systems. Ultimately, our research strives to help better understand the mechanisms within these systems for possible medical applications in autoimmunity, allergy, transplant rejection, and thrombotic disorders. 

Aaron Young is an Associate Professor in Mechanical Engineering and is interested in designing and improving powered orthotic and prosthetic control systems for persons with stroke, neurological injury or amputation. His previous experience includes a post-doctoral fellowship at the University of Michigan in the Human Neuromechanics Lab working with exoskeletons and powered orthoses to augment human performance. He has also worked on the control of upper and lower limb prostheses at the Center for Bionic Medicine (CBM) at the Rehabilitation Institute of Chicago. His master's work at CBM focused on the use of pattern recognition systems using myoelectric (EMG) signals to control upper limb prostheses. His dissertation work at CBM focused on sensory fusion of mechanical and EMG signals to enable an intent recognition system for powered lower limb prostheses for use by persons with a transfemoral amputation.

Xia is the Brock Family Chair and Georgia Research Alliance (GRA) Eminent Scholar in Nanomedicine in the Wallace H. Coulter Department of Biomedical Engineering at Georgia Institute of Technology and Emory University, with joint appointments in School of Chemistry and Biochemistry, and School of Chemical and Biomolecular Engineering. Professor Xia received his Ph.D. degree in Physical Chemistry from Harvard University (with Professor George M. Whitesides) in 1996, his M.S. degree in Inorganic Chemistry from University of Pennsylvania (with the late Professor Alan G. MacDiarmid, a Nobel Laureate in Chemistry, 2000) in 1993, and his B.S. degree in Chemical Physics from the University of Science and Technology of China (USTC) in 1987. He came to the United States of America in 1991. Xia has received a number of prestigious awards, including the 2013 Nano Today Award, the ACS National Award in the Chemistry of Materials (2013), Fred Kavli Distinguished Lecture in Nanoscience at the MRS Spring Meeting (2013), AIMBE Fellow (2011), MRS Fellow (2009 ), NIH Director's Pioneer Award (2006), ACS Leo Hendrik Baekeland Award (2005), Camille Dreyfus Teacher Scholar (2002), David and Lucile Packard Fellowship in Science and Engineering (2000), Alfred P. Sloan Research Fellow (2000), NSF Early Career Development Award (2000), ACS Victor K. LaMer Award (1999), and Camille and Henry Dreyfus New Faculty Award (1997). Xia has been an Associate Editor of Nano Letters since 2002, and has served on the Advisory Boards of Particle & Particle Systems Characterization (2013-), Chemical Physics Letters (2013-), Chemistry: A European Journal (2013-), Chinese Journal of Chemistry (2013-), Angewandte Chemie International Edition (2011-), Advanced Healthcare Materials (2011-, inaugural chairman of the advisory board), Accounts of Chemical Research (2010-), Cancer Nanotechnology (2010-), Chemistry: An Asian Journal (2010-), Journal of Biomedical Optics (2010-), Nano Research (2009-), Science of Advanced Materials (2009-), Nano Today (2006-), Chemistry of Materials (2005-2007), Langmuir (2005-2010, 2013-2015), International Journal of Nanotechnology (2004-), and Advanced Functional Materials (2001-). He has also served as a Guest Editor of special issues for Advanced Materials (six times), Advanced Functional Materials (one time), MRS Bulletin (one time), and Accounts of Chemical Research (one time).

Vladimir V. Tsukruk is a Dean’s Distinguished Professor of Engineering at the School of Materials Science and Engineering, Georgia Institute of Technology, a founding Director of Microanalysis Center, and founding co-director of DoD BIONIC Center of Excellence.  He received MS degree in physics from the National University of Ukraine, PhD in polymer science and DSc in chemistry from the National Academy of Sciences of Ukraine. He carried out his post-doc research at the U. Marburg, Darmstadt TU, and U. Akron.

He serves on the Editorial Advisory Boards of ten professional journals and as an Associate Editor at ACS Applied Materials and Interfaces. He has co-authored more than 400 refereed articles in archival journals and five books, which have been cited more than 15,500 times with H-index of 60 (WoS).  He has organized ten professional symposia and trained about 70 students currently employed in industry, academia, and national labs.  His research in the field of surfaces, interfaces, directed assembly of synthetic/natural polymers and nanostructures, and bioinspired hybrid nanomaterials has been recognized by The Georgia Tech Outstanding Research Author Award (2015), the Humboldt Lectureship (2011), Humboldt Research Award (2010) and the National Science Foundation Special Creativity Award (2006) among others.

Matt is a former Tar Heel from UNC Chapel Hill. His training is in mass spectrometry-based proteomics and G protein signaling. He has been investigating PTMs since 2001. He is also a co-director of the Systems Mass Spectrometry Core (SYMS-C) facility at Georgia Tech.

Todd Sulchek is an associate professor in Mechanical Engineering at Georgia Tech where he conducts fundamental and applied research in the field of biophysics. His research program focuses on the mechanical and adhesive properties of cell and biological systems and the development of microsystems to aid in their study. His research employs tools, including, MEMS, microfluidics, imaging, and patterning to understand or enable biological systems. His interests include cancer diagnostics, stem cell biomanufacturing, novel therapeutics, and ultracheap engineering tools. He is a member of the interdisciplinary Institute for Bioengineering and Bioscience. Dr. Sulchek also holds program faculty positions in Bioengineering and Biomedical Engineering and has a courtesy appointment in the School of Biology. He received his Ph.D. from Stanford in Applied Physics under Calvin Quate and received a bachelors in math and physics from Johns Hopkins. He was a postdoc and staff scientist at Lawrence Livermore National Lab. He joined Georgia Tech in 2008 as an Assistant Professor of Mechanical Engineering. He is a recipient of the NSF CAREER award, the BP Junior Faculty Teaching Excellence Award, the Lockheed Inspirational Young Faculty award, and the 2012 Petit Institute Above and Beyond Award. To date he has published 42 journal papers and has filed or been issued 7 patents. Prof. Sulchek is a strong supporter of undergraduate research, and he participates in a variety of undergraduate education activities including the Undergraduate Research Opportunities Program (UROP) and includes over 8 undergraduate authors in the past year.

Stephen Sprigle is a Professor at the Georgia Institute of Technology with appointments in Bioengineering, Industrial Design and the George W. Woodruff School of Mechanical Engineering. 

A biomedical engineer with a license in physical therapy, Sprigle directs the Rehabilitation Engineering and Applied Research Lab (REARLab), which focuses on applied disability research and development. The REARLab’s research interests include the biomechanics of wheelchair seating and posture, pressure ulcer prevention, and manual wheelchair propulsion. Its development activities include standardized wheelchair and cushion testing and the design of assistive and diagnostic technologies. Sprigle teaches design-related classes in both the Schools of Industrial Design and Mechanical Engineering.

Physiological and biomechanical mechanisms underlying fine motor skills and their adjustments and adaptations to heightened sympathetic nerve activity, aging or inactivity, space flight or microgravity, neuromuscular fatigue, divided attention, and practice in humans. He uses state-of-the-art techniques in neuroscience, physiology, and biomechanics (e.g., TMS, EEG, fMRI, single motor unit recordings, microneurography, mechanomyography, ultrasound elastography, and exoskeleton robot) in identifying these mechanisms.