Projects
Confocal microscope. KU Leuven
White light laser-based confocal fluorescence lifetime imaging microscope for multi-parameter 3D live imaging Ghent University
Fluorescence lifetime imaging microscopy (FLIM) is anemerging tool for studying biological processes in live,multi-parameter and quantitative manner. Modern FLIM-compatible confocal microscopes equipped with respectivehardware and software enable for fast and high-quality 3Danalysis of cell and tissue oxygenation, metabolism, cellproliferation and differentiation, their response to therapyand infection. While already able addressing ...
Multipurpose multiphoton confocal laser scanning microscope Hasselt University
Modular Confocal Raman Microscope Ghent University
The envisioned equipment comprises of a modular confocal Raman microscope for bio-imaging and identification of (bio-)molecules (molecular fingerprinting). The setup includes a microscope body with positioning stage, Nd-YAG laser, detectors and spectrometers as well as a sensitive Peltier-cooled CCD camera and allows for visualizing chemical properties with diffraction limited resolution.
Replacement of confocal fluorescence microscope for visualisation of biological processes in humans and animals Ghent University
The confocal fluorescence microscope Leica TCS SP2 Laser Scanning Spectral Confocal System, localized in the Laboratory of Virology, Faculty of Veterinary Medicine is a device that is daily used by different users of the Faculties of Veterinary Medicine and Medicine and Health Sciences for the research on different biological processes (pathogenesis, immunopathology, embryology, …). It is the only confocal microscope at the Faculty of ...
Laser scanning confocal microscope. KU Leuven
Laser scanning confocal microscope for 3D imaging and visualization of changes and interactions of molecules and organelles in living cells.
Confocal and multiphoton laser scanning microscope LSM 710, configuration 2 NLO. KU Leuven
A multiphoton laser scanning microscope enables to obtain high-resolution optical images of fluorescently labeled cells, tissues or small organisms and 3D-reconstructions of complex samples. Furthermore, it allows to follow physiological processes in real-time via time-lapse imaging.