13 People Results for the Tag: Hydrogels
Huck Chair in Regenerative Engineering; Professor of Biomedical Engineering
Development of new biodegradable polymers for use in engineering elastic tissues such as blood vessel, tendon, ligament, and cardiac tissue, and in other applications such as biological labeling, bioimaging and drug delivery.
Professor of Biomedical Engineering and Surgery
Understanding the native cardiovascular system fluid mechanics; understanding the diseased cardiovascular system fluid mechanics, and the impact that cardiovascular prosthetics generate during and post implantation.
Professor of Agricultural and Biological Engineering
Cellulose synthesis and organization, cellulosic composites and coatings, microbial cellulose production, and chemically powered microfluidic and biological devices and sensors.
Shuman Assistant Professor of Mechanical Engineering
Computational methods and high performance computing to examine brain neurotrauma biomechanics; human structural connectome analysis using physics-based predictions of biomechanical brain injury.
Professor of Biomedical Engineering
Applying nature and biology as design guidelines to the creation of biomimetic and bioinspired materials at both the nanoscale and macroscale level for drug delivery, clinical diagnosis, and regenerative medicine.
Center for Infectious Disease Dynamics
Director, Center of Excellence in Industrial Biotechnology; Huck Chair in Nanotherapeutics and Regenerative Medicine; Professor of Biomedical Engineering
Biomaterials engineering for applications ranging from regenerative medicine to lab-on-a-chip technologies. An emphasis on nanomaterials, macromolecules and composite structures. Ongoing efforts include development of optically and magnetically modulated drug delivery systems, quasi 3D cell sheet culture systems, cell encapsulation and delivery materials and hybrid in situ polymerizing grafts/augments.
Assistant Professor of Bioengineering
Mechanobiology focusing on how mechanical stimuli influence tendon cell behavior in their native microenvironment with the ultimate goal of understanding tendon pathology and identifying novel therapeutic options.
Assistant Professor of Chemical Engineering
Micro- and nanoengineered soft materials for medicine and the environment; microfluidic-enabled biomaterials for tissue engineering and regeneration; living materials; next-generation bioadhesives, tissue sealants, and hemostatic agents; hydrogels for minimally invasive medical technologies; self-healing and adaptable soft materials; smart coatings; hairy nanocelluloses as an emerging family of advanced materials.