Micro-nano sensors, bioanalytics, lab-on-a-chip, 3D sensors, drug monitoring, aptamers, DNA quantification, tri-gate FET nanosensors, electrochemical impedance, circulating biomarkers.
Super-resolution fluorescence imaging techniques, live cell imaging and single molecule tracking.
Developmental biology, genetic oscillations, physics of biology, quantitative imaging, single-cell biology, computer modelling, zebrafish.
Musculoskeletal biomechanics, soft tissue biomechanics, bone tissue engineering, mechanobiology, regenerative medicine.
Solid-state nanopores, single-molecDigital phase conjugation, imaging with multimode fibers, digital holography, nonlinear microscopy, optics of nanoparticles, tissue ablation, optofluidics for energy and biological applications, vesicle photonics, photoacoustics.ule imaging, biophysics, nanotechnology, 2D materials.
Solid-state nanopores, single-molecule imaging, biophysics, nanotechnology, 2D materials.
Water, aqueous interfaBioMEMS, microfluidics, cell chips, bioelectronics, biosensors.ces, ions, nonlinear light scattering and spectroscopy, biophotonics.
Computational neuroimaging, networkWater, aqueous interfaces, ions, nonlinear light scattering and spectroscopy, biophotonics.Water, aqueous interfaces, ions, nonlinear light scattering and spectroscopy, biophotonics, analysis, dynamical systems, graph signal processing, wavelets, mathematical imaging, sparsity, machine learning, (f)MRI, EEG, PET, calcium imaging.
Biomedical microfluidics, antibody discovery, T-cell engineering, single-cell analysis, personalized cancer therapy.