About
Marcel Utz is Professor of Magnetic Resonance, Microfluidics, and Complex Materials within Chemistry at the University of Southampton.
Marcel obtained a MSc in materials science from ETH Zürich in 1994. He then joined the research groups of Prof. Ueli Suter in Polymer Science, and of Prof. Richard R. Ernst in Physical Chemistry at ETH as a doctoral candidate. In 1998, he obtained his doctorate, with a thesis on solid-state NMR investigations of glassy polymers under plastic deformation. In 1999, he joined the group of Prof. Pablo DeBenedetti at Princeton University as a postdoc, with a stipend from the Swiss National Science Foundation. A year later, he joined the Institute of Materials Science and the Department of Physics at the University of Connecticut as an Assistant Professor. He was promoted to Associate Professor with Tenure in 2006. In the same year, he moved to the University of Virginia, where he joined the department of Mechanical and Aerospace Engineering. In 2012, Marcel moved to the UK, joining the School of Chemistry at the University of Southampton. He was promoted to a personal chair in 2014. He currently heads the section of Magnetic Resonance within the School of Chemistry.
Marcel lives in Winchester, UK, with his wife Song and their son Nicolas.
MSc, Materials Science, ETH Zürich
Dr sc, ETH Zürich
Associate Professor of Physics, University of Connecticut (2000-2006)
Associate Professor of Mechanical and Aerospace Engineering, University of Virginia (2006-2012)
Associate Professor of Chemistry (by courtesy), University of Virginia, (2008-2012)
Reader in Magnetic Resonance, University of Southampton (20012-2014)
Professor of Magnetic Resonance, University of Southampton (2014-)
Research
Research groups
Research interests
- Integration of microfluidic lab-on-a-chip technology with NMR spectroscopy and imaging;
- Behaviour of complex materials.
Current research
Marcel’s main focus lies on the integration of microfluidic lab-on-a-chip technology with NMR spectroscopy and imaging. His group believe that there is great potential for NMR in the context of LoC devices, due to its versatility, resolution, and non-invasive nature, which make it an ideal tool to study complex living systems.
In addition, they are also interested in the behaviour of complex materials. Recent examples of this include polyelectrolyte hydrogels and brick-and-mortar type micro-composites.
Research projects
Active projects
Completed projects
Publications
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Teaching
Coordinator, CHEM1055 Fundamentals of Kinetics and Quantum Mechanics
Coordinator, CHEM6154, NMR Spectroscopy
Instructor, CHEM2013, Atomic and Molecular Interactions
Instructor, CHEM3045, Atoms, Spins, and Molecules