Projects
The next generation of transmission electron microscopy: from biomedicine to nanomaterials. A state-of-the art electron microscopy system for cryo-EM and correlative light and electron microscopy Hasselt University
The next generation of transmission electron microscopy: from biomedicine to nanomaterials. A state-of-the art electron microscopy system for cryo-EM and correlative light and electron microscopy. Hasselt University
Renewing the digital platform to acquire, analyse and archive both macroscopic and microscopic images Ghent University
This proposal will allow a complete renewal of the digital platform of the department of Morphology (digital camera’s for fluorescence microscope, steremicroscope and inverted microscope, image analysis software, server based database). By doing this, the research performed in the department of Morphology can be continued on a high level, and the support to other departments can be guaranteed.
Total internal reflection fluorescence microscope (TIRF microscope). KU Leuven
Full field optical coherence microscopy (FF-OCM) with ultrahigh resolution for 3D microscopic monitoring of biological tissues. KU Leuven
Research in the field of the advanced biomedical microscopic imaging: "Towards medical cytomics. Paving the way with nextgeneration microscopy". University of Antwerp
Multidisciplinary installation of a polyvalent microscope for transmitted light, phase contrast and fluorescence microscopy KU Leuven
Novel microscope designs for fast and highly adaptable fluorescence microscopy. KU Leuven
3D super-resolution correlative light and electron microscopy on a dedicated CLEM microscope and development of an automated data acquisition KU Leuven
Fluorescence microscopy can provide information about location of specific protein molecules, by tagging them with fluorescent moieties, or by labeling them with fluorescent antibodies. However, this information is constraint by the limited resolution of the fluorescence microscope as well as by the absence of cellular context on the nano-scale. Therefore it is necessary to employ correlative light and electron microscopy (CLEM), which ...