![Prof. Hatice Altug - EPFL Institute of Bioengineering - © EPFL Prof. Hatice Altug - EPFL Institute of Bioengineering - © EPFL](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2019/02/AltugHatice-315x216.jpg)
Hatice Altug
Optical nanobiosensors, lab-on-a-chip devices, ultra-sensitive spectroscopy, nanoplasmonics, metamaterials.
![Prof. Kamiar Aminian | EPFL Institute of Bioengineering | © EPFL Prof. Kamiar Aminian | EPFL Institute of Bioengineering | © EPFL](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2019/02/AminianKamiar-315x216.jpg)
Kamiar Aminian
Movement sciences, biomedical signal processing, wearable systems.
![Prof. Georg Fantner | EPFL Institute of Bioengineering | © EPFL Prof. Georg Fantner | EPFL Institute of Bioengineering | © EPFL](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2019/02/FantnerGeorg-315x216.jpg)
Georg Fantner
AFM, nanotechnology, microfabrication, biophysics, microbiology, biomaterials.
![Prof. Carlotta Guiducci | EPFL Institute of Bioengineering | © EPFL Prof. Carlotta Guiducci | EPFL Institute of Bioengineering | © EPFL](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2019/02/GuiducciCarlotta-315x216.jpg)
Carlotta Guiducci
Micro-nano sensors, bioanalytics, lab-on-a-chip, 3D sensors, drug monitoring, aptamers, DNA quantification, tri-gate FET nanosensors, electrochemical impedance, circulating biomarkers.
![Prof. Suliana Manley | EPFL Institute of Bioengineering | © EPFL Prof. Suliana Manley | EPFL Institute of Bioengineering | © EPFL](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2019/02/ManleySuliana-315x216.jpg)
Suliana Manley
Super-resolution fluorescence imaging techniques, live cell imaging and single molecule tracking.
![Prof. Andrew Oates | EPFL Institute of Bioengineering | © EPFL Prof. Andrew Oates | EPFL Institute of Bioengineering | © EPFL](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2019/02/OatesAndy-315x216.jpg)
Andrew Oates
Developmental biology, genetic oscillations, physics of biology, quantitative imaging, single-cell biology, computer modelling, zebrafish.
![Prof. Dominique Pioletti | EPFL Institute of Bioengineering | © EPFL Prof. Dominique Pioletti | EPFL Institute of Bioengineering | © EPFL](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2019/02/PiolettiDominique-315x216.jpg)
Dominique Pioletti
Musculoskeletal biomechanics, soft tissue biomechanics, bone tissue engineering, mechanobiology, regenerative medicine.
![Prof. Demetri Psaltis | EPFL Institute of Bioengineering | © EPFL Prof. Demetri Psaltis | EPFL Institute of Bioengineering | © EPFL](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2019/03/PsaltisDemetri-315x216.jpg)
Demetri Psaltis
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.
![Prof. Aleksandra Radenovic | Institute of Bioengineering | © EPFL Prof. Aleksandra Radenovic | Institute of Bioengineering | © EPFL](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2019/02/RadenovicAleksandra-315x216.jpg)
Aleksandra Radenovic
Solid-state nanopores, single-molecule imaging, biophysics, nanotechnology, 2D materials.
![Prof. Philippe Renaud | EPFL Institute of Bioengineering | © EPFL Prof. Philippe Renaud | EPFL Institute of Bioengineering | © EPFL](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2019/02/RenaudPhilippe-315x216.jpg)
Philippe Renaud
Water, aqueous interfaBioMEMS, microfluidics, cell chips, bioelectronics, biosensors.ces, ions, nonlinear light scattering and spectroscopy, biophotonics.
![Prof. Sylvie Roke | EPFL Institute of Bioengineering | © EPFL Prof. Sylvie Roke | EPFL Institute of Bioengineering | © EPFL](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2019/02/RokeSylvie-315x216.jpg)
Sylvie Roke
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.
![Prof. Christoph Merten Prof. Christoph Merten](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2020/01/Merten-2019-borderless-315x385-343x216.jpg)
Christoph Merten
Biomedical microfluidics, antibody discovery, T-cell engineering, single-cell analysis, personalized cancer therapy.
![Prof. Dimitri Van De Ville | EPFL Institute of Bioengineering | © EPFL Prof. Dimitri Van De Ville | EPFL Institute of Bioengineering | © EPFL](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2019/02/VanDeVilleDimitri-315x216.jpg)
Dimitri Van De Ville
Computational neuroimaging, network analysis, dynamical systems, graph signal processing, wavelets, mathematical imaging, sparsity, machine learning, (f)MRI, EEG, PET, Calcium imaging.
![Martin Weigert | EPFL Institute of Bioengineering | © EPFL](https://www.epfl.ch/research/domains/bioengineering/wp-content/uploads/2020/03/Weigert-2020-315x216-315x216.jpg)
Martin Weigert
Bioimage analysis, machine learning, computational microscopy.