Biomedical Engineering | PhD Programs

Name	Email	PhD Program	Research Interest	Publications
Freeman, Ronit WEBSITE EMAIL PUBLICATIONS	PHD PROGRAM Applied Physical Sciences, Biomedical Engineering, Chemistry RESEARCH INTEREST Biomaterials, Biophysics, Cancer Biology, Cell Biology, Cell Signaling, Drug Delivery, Drug Discovery, Nanomedicine, Translational Medicine	My lab focuses on developing bioinspired molecular constructs and material platforms that can mimic proteins and be programmed to respond to stimuli resulting from biomolecular recognition. Major efforts are directed to design peptide- and nucleic acid-based scaffolds or injectable nanostructures to create artificial extracellular matrices that can directly signal cells.
Superfine, Richard WEBSITE EMAIL PUBLICATIONS	PHD PROGRAM Applied Physical Sciences, Biomedical Engineering RESEARCH INTEREST Biomaterials, Biophysics, Cell Biology, Computational Biology, Systems Biology	Superfine’s group studies stimulus-responsive active and living materials from the scale of individual molecules to physiological tissues, including DNA, cells and microfluidic-based tissue models. We develop new techniques using advanced optical, scanning probe, and magnetic force microscopy. We pursue diverse physiological phenomena from cancer to immunology to mucus clearance in the lung. Our work includes developing systems that mimic biology, most recently in the form of engineered cilia arrays that mimic lung tissue while providing unique solutions in biomedical devices.
Bai, Wubin WEBSITE EMAIL PUBLICATIONS	PHD PROGRAM Biomedical Engineering RESEARCH INTEREST Biomaterials, Biophysics, Drug Delivery	Our research focuses on both fundamental and applied study of soft materials and nanomaterials, develop fabrication approaches to enable hybrid integration of multi-materials towards high-performance electronic and photonic systems, innovate new technology that can intelligently immerse electronics and photonics into biological systems, and create new tools and devices to address unmet clinical needs and improve human healthcare. Our lab fosters a collaborative environment that converges expertise/interests from various backgrounds including materials science and engineering, electrical engineering, physics, chemical engineering, mechanical engineering, and biomedical engineering. We provide hands-on learning, enjoy making practical tools, and aspire to transform scientific advancements into societal solutions.

Name

PhD Program

Research Interest

Publications

Freeman, Ronit
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Applied Physical Sciences, Biomedical Engineering, Chemistry

RESEARCH INTEREST
Biomaterials, Biophysics, Cancer Biology, Cell Biology, Cell Signaling, Drug Delivery, Drug Discovery, Nanomedicine, Translational Medicine

My lab focuses on developing bioinspired molecular constructs and material platforms that can mimic proteins and be programmed to respond to stimuli resulting from biomolecular recognition. Major efforts are directed to design peptide- and nucleic acid-based scaffolds or injectable nanostructures to create artificial extracellular matrices that can directly signal cells.

Superfine, Richard
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Applied Physical Sciences, Biomedical Engineering

RESEARCH INTEREST
Biomaterials, Biophysics, Cell Biology, Computational Biology, Systems Biology

Superfine’s group studies stimulus-responsive active and living materials from the scale of individual molecules to physiological tissues, including DNA, cells and microfluidic-based tissue models. We develop new techniques using advanced optical, scanning probe, and magnetic force microscopy. We pursue diverse physiological phenomena from cancer to immunology to mucus clearance in the lung. Our work includes developing systems that mimic biology, most recently in the form of engineered cilia arrays that mimic lung tissue while providing unique solutions in biomedical devices.

Bai, Wubin
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Biomedical Engineering

RESEARCH INTEREST
Biomaterials, Biophysics, Drug Delivery

Our research focuses on both fundamental and applied study of soft materials and nanomaterials, develop fabrication approaches to enable hybrid integration of multi-materials towards high-performance electronic and photonic systems, innovate new technology that can intelligently immerse electronics and photonics into biological systems, and create new tools and devices to address unmet clinical needs and improve human healthcare. Our lab fosters a collaborative environment that converges expertise/interests from various backgrounds including materials science and engineering, electrical engineering, physics, chemical engineering, mechanical engineering, and biomedical engineering. We provide hands-on learning, enjoy making practical tools, and aspire to transform scientific advancements into societal solutions.

PhD Program: Biomedical Engineering