Research @ UVA Engineering
Engineering For HealthUVA Engineering is co-located with the top-ranked UVA School of Medicine and UVA Health System, and our culture values and rewards collaboration and initiative.
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Cyber-Physical System Networks and I.o.T
Computer Science Cyber-Physical Systems (CPS) and the Internet of Things have been identified by the National Academy of Sciences as national research priorities, critical to educating scientists and engineers for an increasingly cyber-enabled future. -
Devices and Circuits
Electrical and Computer Engineering We excel in the design of THz devices and circuits, microelectromechanical components, super-conducting materials, and beyond-CMOS electronics. -
Drug & Gene Delivery
Biomedical Engineering UVA is widely recognized for its strengths in biopanning for novel peptide ligands in vivo, as well as using peptides and antibodies to target the delivery of microbubbles, liposomes and genes in the settings of cancer, cardiovascular and infectious disease. -
Electrical Magnetic Optical Properties
Materials Science and Engineering Our research in electrical, magnetic and optical properties of materials makes modern computation and communication possible. -
Energy and Environment
Chemical Engineering Our chemical engineers are creating innovations in battery chemistry, solar materials, and impacting large-scale energy storage. They're also developing membranes for desalination, forward osmosis, osmotic power, and batteries. Additionally, they're engaged in bioremediation and designing biorenewable molecules to enhance safer and sustainable chemical production and combustable. -
Fibrosis
Biomedical Engineering Our faculty are using computational modeling, systems biology, imaging, biomaterials development, and tissue engineering to understand, image, and treat fibrosis. -
Human-Technology Interaction
Systems and Information Engineering When people interface with technology, complex questions arise: from automous control timing and priority, risk and decision analysis, usable haptics, and computing, and integrating human and machine intelligence, our researchers are improving humans’ ability to work effectively in complex technical systems. -
Infectious Disease
Biomedical Engineering The understanding and treatment of infectious disease benefits from multiple engineering approaches, including computational modeling of metabolic networks in pathogens, predictive models of host-pathogen interactions, technology to probe single human parasites, rapid identification of pathogens in clinical samples, and devices for preventing the spread of drug resistant bacteria in hospitals. -
Information and Intelligent Automation
Systems and Information Engineering Exploring intelligent, automated technology and method development and innovative ways these intelligent systems can improve society. -
Materials Engineering and Nanotechnology
Chemical Engineering Our nanotechnology research explores polymer nanocomposites, nanomaterials, and advanced polymer membrane materials, including semiconductor and nanoparticle research, metal-organic frameworks crystal growth, and engineering biomaterials for diverse applications like tissue engineering, drug delivery, and electronic devices. -
Musculoskeletal Diseases
Biomedical Engineering At UVa we use a suite of experimental and computational techniques to identify, characterize, and exploit guiding principles of musculoskeletal design to understand and improve therapies for musculoskeletal diseases such as Duchenne Muscular Dystrophy and volumetric muscle loss (VML). -
Operations Research and Analytics
Systems and Information Engineering Systems researchers model, analyze and improve the most complex systems in th world, using analytics. , including machine learning and artificial intelligence, optimization, stochastic processes, and discrete-event and agent-based simulation to improve domains from manufacturing, human health, defense and energy.