Thomas Heimburg (Professor, NBI Membranes group) works on thermodynamics and biophysics of biological membranes. Research: (1) theory of nerve pulse propagation as electromechanical solitons ('soliton model'); (2) lipid membrane phase transitions — calorimetry, DSC, AFM; (3) anesthesia mechanism via membrane phase perturbation; (4) ion-channel-like events in pure lipid membranes near phase transitions. Notably co-authored 2016 Scientific Reports paper with QUANTOP (Jensen et al.) demonstrating non-invasive detection of nerve impulses using atomic magnetometry — direct overlap with quantum sensing.
Timon Idema (Associate Professor, BioNanoscience) develops theoretical models of cell biophysics. Research: (1) membrane shape theory — analytical and computational models of membrane curvature, budding, and fission driven by proteins; (2) cytoskeletal self-organisation — theoretical description of how microtubules and actin form functional structures during cell division; (3) synthetic cell theory — physical constraints and design principles for minimal cells. Collaborates closely with Dogterom and Koenderink labs on comparing theory with single-molecule experiments.