Biomedical Engineering, Nuclear Engineering and Engineering Physics

trmackie@wisc.edu, (608) 262-7358

Freshwater and Marine Sciences

jjmagnus@wisc.edu, (608) 262-3010

Interdisciplinary Professional Programs, College of Engineering

mmalkin@wisc.edu,

Nuclear Engineering and Engineering Physics

Applied mathematics, numerical methods in mechanics, rheology
malkus@engr.wisc.edu,

Electrical and Computer Engineering

matthew.malloy@wisc.edu,

Industrial and Systems Engineering, Interdisciplinary Professional Programs

tmmann@wisc.edu, (715) 574-5679

Chemical and Biological Engineering

Chemical production planning and scheduling, Supply chain management, Optimization methods for chemical process synthesis, Computational methods for novel material discovery, Development and assessmsent of renewable energy strategies, Mixed-integer programming
christos.maravelias@wisc.edu, (608) 265-9026

Mechanical Engineering, Biomedical Engineering, Materials Science Program

Research, Design, and Product Development - Assistive Technology, Access to Science, Technology, Engineering and Mathematics Education and Careers for Individuals with Disabilities, Formative Assessment Methods for Engineering Learning
martin@engr.wisc.edu, (608) 263-9460

Electrical and Computer Engineering, Materials Science and Engineering

Semiconductor lasers, metalorganic chemical vapor deposition (MOCVD) growth of semiconductors, III/V compound semiconductor materials and devices
ljmawst@wisc.edu, (608) 263-1705

Biomedical Engineering, Electrical and Computer Engineering

Dr. May’s research focuses on the design and integration of computational and experimental platforms to develop multi-scale, predictive models of host-pathogen interactions and biological systems.  The May lab uses systems biology and engineering methods to understand and ultimately direct microbial and cellular systems of consequence in chr...
emay5@wisc.edu, (608) 316-4421

Biomedical Engineering

mccarthy@ortho.wisc.edu, (608) 263-5411

Electrical and Computer Engineering, Materials Science Program

Fiber optic mesh networks, Clinical applications of guided wave photonics, Far-infrared (terahertz) generation and spectroscopy, Applications of quantum optics, Guided wave photonic devices and circuits, Nonlinear optics materials and device
mccaughan@engr.wisc.edu,

Materials Science and Engineering

Condensed Matter: Quantum coherence and entanglement of superconducting integrated circuits, quantum-limited amplifiers, application of SQUIDs to magnetic resonance detection.
rfmcdermott@wisc.edu, (608) 263-4476

Technical Communication Certificate Program

mcglamer@engr.wisc.edu, (608) 265-4735

Interdisciplinary Professional Programs, College of Engineering

imcintosh2@wisc.edu, (608) 262-0800

Biomedical Engineering, Electrical and Computer Engineering

Magnetic resonance imaging (MRI), positron emission tomography (PET), PET/MR, PET/CT, machine learning, deep learningResearch at the UW
abmcmillan@wisc.edu, (608) 262-2622

Biomedical Engineering

The Medow lab focusses on biomedical engineering and mathematical approaches to solving major medical quandaries. Current projects include a new approach to CT image reconstruction and resolution of CT data inconsistency, diagnosis and treatment of hydrocephalus related shunt malfunction, development of a new ventilator to improve gas exchange in ARDS ...
medow@neurosurgery.wisc.edu, (608) 263-0485

Industrial and Systems Engineering

emendonca@wisc.edu, (608) 263-6797

Biomedical Engineering, Industrial and Systems Engineering

The development of Magnetic Resonance Imaging (MRI) based acquisition and post-processing methods to visualize diffusion and activation in the human brain., Research at UW
memeyerand@wisc.edu, (608) 263-1685

Geological Engineering

Geomorphology and applied geology, shortline erosion, slope stability, hydrogeologic properties of glacial deposits, field geology
mickelson@geology.wisc.edu, (608) 262-7863

Mechanical Engineering

mikkelso@cae.wisc.edu, (608) 890-4897

Mechanical Engineering

Mechanical design, machine design, innovation and creativity, stress & fatigue analysis, fretting-fatigue, fasteners, hybrid and hybrid electric vehicles
mileston@engr.wisc.edu, (608) 262-0023

Electrical and Computer Engineering

Solid state semiconductor devices; Clean room semiconductor processing;
smilicic@wisc.edu, (608) 265-2982

Interdisciplinary Professional Programs, College of Engineering

paul.miller@wisc.edu,

Electrical and Computer Engineering, Computer Sciences

bart@cs.wisc.edu, (608) 628-2158

Biomedical Engineering

Investigations of non-invasive techniques for magnetic resonance imaging of the cardiovascular system, quantitation of flow, coronary artery imaging and flow measurement, MR Myocradial Perfusion,
camistre@facstaff.wisc.edu, (608) 263-8313

Mechanical Engineering

Convective heat transfer, solar energy applications, energy utilization, bulding HVAC systems
mitchell@engr.wisc.edu, (608) 262-5972

Industrial and Systems Engineering

todd.molfenter@chess.wisc.edu, (608) 262-1685

Civil and Environmental Engineering

Fluid mechanics, water waves, coastal engineering, flood routing, groundwater/seepage
monkmeyer@engr.wisc.edu, (608) 238-7383

Civil and Environmental Engineering

Hydrology and water resources engineering, Climate change adaptation and mitigation in civil engineering infrastructure, Restoration of hydrologic systems, Groundwater/surface water interaction, Stormwater management
rmontgomery2@wisc.edu,

Electrical and Computer Engineering

Reconfigurable computer architectures, automated design for reconfigurable computing, operating system support for heterogeneous computing, systems-on-a-chip (SoCs)
klmorrow@wisc.edu,

Electrical and Computer Engineering

mgmorrow@wisc.edu,

Nuclear Engineering and Engineering Physics

Nuclear reactor physics, computational engr., radiation hydrodynamics, technology enhanced learning, fusion reactor design
gregory.moses@wisc.edu, (608) 265-6567

Materials Science Program

dfmosher@wisc.edu, (608) 262-1576

Biomedical Engineering

Targeted remodeling of bone, Functional adaptation to bone fatigue, Bacteria-associated inflammatory arthritis, Anterior cruciate ligament rupture
muirp@svm.vetmed.wisc.edu, (608) 263-9819

Chemical and Biological Engineering, Biomedical Engineering

Physical chemistry of protein-protein interactions, amyloid protein aggregation
regina.murphy@wisc.edu, (608) 262-1587

Nuclear Engineering and Engineering Physics

jmurphy@engr.wisc.edu, (608) 265-4186

Biomedical Engineering, Materials Science and Engineering, Materials Science Program

Molecular, Cellular, and Tissue Biomechanics, Systems Biology, Cellular Engineering, Cell Motility and Tissue Dynamics
mmurrell2@wisc.edu,

Industrial and Systems Engineering, Computer Sciences

Human-computer interaction (HCI), specifically human-robot interaction, assistive, educational, and therapeutic use of humanlike robots and agents, modeling of human social behavior, activity recognition, and mobile and ubiquitous computing.
bmutlu@wisc.edu, (608) 262-6635