Research Projects
Read about our projects
ERC StG Re.HOT
The Re.HOT project aims to develop a pioneering, non-invasive imaging technology for the quantitative, three-dimensional analysis of living tissues, revolutionizing medical diagnostics and opening new possibilities in materials engineering
AlendroSkin2
AlendroSkin2 aims to develop and preclinically validate a novel transdermal osteoporosis therapy based on nano-alendronic acid formulations, offering a more patient-friendly alternative to current treatments.
NCN Sheng: TRUE QPI
TRUE_QPI advances quantitative phase imaging by developing multiscale, correlative, and metrologically validated label-free microscopy methods that enable high-throughput, high-resolution 2D and 3D imaging of biological samples at the cellular level.
EU PhotonHub
PhotonHub Europe acts as a one-stop-shop matchmaker between European SMEs and the existing European ecosystem of photonics training providers. In this regard PhotonHub provides a unique service by collating the broad training offerings in photonics from RTO’s, training centres and industry across Europe into a single online catalogue of the European Photonics Innovation Academy.
EU Phortify
Phortify is a European photonics education network that connects top universities, research organizations, and industry partners to foster next-generation innovation and digital skills excellence. The project offers high-quality training, including master graduate programs and flexible self-standing modules, to help students and professionals advance their careers in the photonics sector.
PI@WUT: Prof. Michał Józwik
[FINISHED] EU H2020 REVEAL
The REVEAL project aims at installing a novel microscope at the interface of instrumentation, machine learning and Biology. This new microscopy technique will rely heavily on neural networks to be able to perceive, interpret, conjecture, infer, anticipate and act. The present project intends to lay down the foundations of this ‘neuronal microscopy’ in the realms of 2D and 3D cell live imaging.
[FINISHED] FNP Team-Tech Biopto
Label-free 3D quantitative phase imaging techniques are becoming increasingly important and popular in biological and medical applications. The main objective (MO) of the proposal is to develop, test and prepare for commercialization (TRL7) novel groundbreaking tool for quantitative 3D analysis of phase biological microobjects, namely the tomographic phase microscope.