Bioelectric Engineering Faculty

Primary Faculty

Roger C. Barr

Roger C. Barr

Professor

Research Interests: Bioelectricity and biomedical computing.

Nenad Bursac

Nenad Bursac

Professor of Biomedical Engineering

Research Interests: Embryonic and adult stem cell therapies for heart and muscle disease; cardiac and skeletal muscle tissue engineering; cardiac electrophysiology and arrhythmias; genetic modifications of stem and somatic cells; micropatterning of proteins and hydrogels.

Yiyang Gong

Yiyang Gong

Assistant Professor in the Department of Biomedical Engineering

Research Interests: Recording and understanding brain activity by developing novel combinations of optical microscopy and genetically encoded sensors. Using these technologies, we wish to dissect neural circuit function and investigate how neural activity drives complex behaviors.

Warren M. Grill

Warren M. Grill

Professor of Biomedical Engineering

Research Interests: Neural engineering and neural prostheses and include design and testing of electrodes and stimulation techniques, the electrical properties of tissues and cells, and computational neuroscience with applications in restoration of bladder function, treatment of movement disorders...

Craig S. Henriquez

Craig S. Henriquez

Professor of Biomedical Engineering

Research Interests: Large-scale computing, heart modeling, and brain modeling.

Wanda Krassowska Neu

Wanda Krassowska Neu

Professor of Biomedical Engineering

Research Interests: Electroporation-mediated drug delivery and gene therapy; Control of cardiac arrhythmias using nonlinear dynamics

Xiling Shen

Xiling Shen

Hawkins Family Associate Professor

Research Interests: Metabolic and epigenetic reprogramming of cancer metastasis, stem cell and organoid technology, microbiome-host-disease interaction, humanized immune cancer models, intravital imaging, CRISPR/dCAS9 epigenetic screening, and peripheral neuromodulation.

Marc A. Sommer

Marc A. Sommer

W. H. Gardner, Jr. Associate Professor

Research Interests: Neuronal circuits of the brain, including recording from single neurons and studying the effects of inactivating or stimulating well-defined brain areas. His goals are to understand how individual areas process signals and how multiple areas interact to cause cognition and...

Michael Raphael Tadross

Michael Raphael Tadross

Assistant Professor of Biomedical Engineering

Research Interests: Our goal is to bridge the gap between the study of brain as a computational device and the search for novel neuropathological treatments. We develop technologies to manipulate molecules, cells, and synapses in the brain, and deploy these reagents in mouse models of disease.

Jonathan Viventi

Jonathan Viventi

Assistant Professor in the Department of Biomedical Engineering

Research Interests: Using flexible electronics to create new technology for interfacing with the brain at high resolution over large areas. These new tools can help diagnose and treat neurological disorders such as epilepsy, and help improve the performance of brain machine interfaces.

Patrick D. Wolf

Patrick D. Wolf

Associate Professor of Biomedical Engineering

Research Interests: Advanced instrumentation for diagnosis and treatment of electrophysiological problems. This research covers two primary organ systems: the heart and the brain. In the heart, Dr. Wolf is developing an image guided ablation system for treatment of arrhythmias. In the brain, he is...

Secondary Faculty

Miguel Angelo L. Nicolelis

Miguel Angelo L. Nicolelis

Duke School of Medicine Professor in Neuroscience

Research Interests: Dr. Nicolelis investigates how the brains of freely behaving animals encode sensory and motor information. He was first to propose and demonstrate that animals and human subjects can utilize their electrical brain activity to directly control neuroprosthetic devices via brain-...

Angel Vladimirov Peterchev

Angel Vladimirov Peterchev

Associate Professor in Psychiatry and Behavioral Sciences

Research Interests: I direct the Brain Stimulation Engineering Lab (BSEL) which focuses on the development and modeling of devices and application paradigms for transcranial brain stimulation. Transcranial brain stimulation involves non-invasive delivery of fields (e.g., electric and magnetic) to...