PREFERRED. Jasanoff's lab develops genetically encoded and nanoparticle/small-molecule MRI sensors (for calcium, dopamine, serotonin, and other neurochemical targets) that convert molecular binding events into brain-wide, noninvasive MRI contrast changes, effectively giving whole-brain 'molecular fMRI' with a growing palette of chemically distinct reporters; recent work includes liposomal nanoprobes actuated by engineered water channels for higher-sensitivity detection.
Kuncic works across medical physics and nanoscale systems: nanoparticle-enhanced radiotherapy and dosimetry (where high-Z nanoparticles act as local dose amplifiers and the physics question is energy deposition at nanometre scales), nanoparticle contrast agents and theranostics, and — separately — neuromorphic nanowire networks as physical computing substrates. The medical-physics thread is the relevant one here: it is about quantifying and imaging what a nanoscale probe does inside tissue. Positioned against the established body of NV-ensemble quantum sensing work — DEER, nanoscale NMR and T1 relaxometry protocols operating at pT/sqrt(Hz) field sensitivity — the nanoparticle-in-tissue problem she works on is the same delivery-and-quantification problem that determines whether an in-cell nanodiamond sensor operating near the pT/sqrt(Hz) regime reports anything biologically meaningful. Borderline inclusion; a candidate would be bringing quantum sensing to her, not the reverse.
Meade designs bioinorganic coordination complexes and nanoparticle- and genetically-encoded contrast agents that act as activatable molecular MRI sensors, reporting on enzyme activity, gene expression, and neurochemistry in living tissue, alongside electronic biosensors and transcription-factor inhibitors for molecular imaging and diagnostics.
Vandsburger develops molecular and functional cardiac MRI methods, including CEST-based sensors, to noninvasively image myocardial metabolism, fibrosis, and remodeling with the specificity usually associated with molecular probes rather than conventional anatomical MRI. The lab is actively recruiting postdocs.