Magnetic Resonance and Electrochemistry

The research in the Leo Gordon Group couples magnetic resonance techniques with electrochemistry to study ion transport and charge storage processes, with applications to batteries and related energy materials. Techniques such as MRI and NMR provide fast, non-destructive, and chemically specific insights spanning atomic to millimeter length scales. By combining these approaches with electrochemical methods, the group builds a holistic understanding of transport and storage phenomena under realistic operating conditions.

Research

Activities in our research group focus on time-resolved, in-situ measurements of ion transport in membranes and electrolytes, providing insights into the interplay between thermodynamics and transport in energy systems. Another line of research investigates charge storage in battery electrodes, seeking to identify both chemical and electrochemical mechanisms at work.

In addition, we develop new NMR and electrochemical protocols tailored to these applications, expanding the toolbox for probing complex electrochemical environments. By establishing frameworks to describe ionic mass transfer and redox processes, we contribute to the rational design of next-generation materials for batteries, membranes, and related technologies.

Contact

Leo William Gordon Assistant Professor lewigo@kemi.dtu.dk

Magnetic Resonance and Electrochemistry

Research

Contact

Publications

Vacancies

Group members