Infrastructure
Transmission Electron Microscopy (CLEM) Hasselt University
A 200 kV transmission electron microscope for high-resolution determination of 3D-ultrastructure of native proteins, cells and tissue (TEM) KU Leuven
We request funding for acquisition of a modern high resolution 200 kV electron microscope, fully equipped for cryo- and room temperature imaging including tomography for determining the 3D-structure of biological samples. The new microscope will be used for imaging specimens embedded in plastic at room temperature, as well as for imaging frozen specimens at cryogenic temperature. This type of high-resolution information will be used to answer and identify molecular contributions to medico-biological processes in cells and tissues in health and diseases such as Alzheimer’s disease. ...
200 kV Transmission Electron Microscope (200 kV TEM) Ghent University
It is a modern 200 kV electron microscope with high resolving power, to study the fine structure in 2D and 3D of biological samples. The new microscope will be fully equipped for both room temperature imaging of plastic-embedded samples, as well as imaging of frozen samples at cryogenic temperatures. This type of high-resolution information will be used to identify and answer questions about molecular contributions to medical-biological processes in cells and tissue in healthy or diseased states such as Alzheimer's disease. On the other hand, it can contribute to a better understanding of ...
Einstein Telescope Pathfinder (ET Pathfinder) Ghent University
The discovery of gravitational waves from merging black holes and neutron stars by Advanced LIGO and Advanced Virgo marked the beginning of new era in observing our universe and scientists are keen to fully open up this new window to the (dark side of the) cosmos.
ET will detect several hundred thousand gravitational wave signals per year and allow us listen to the sound of merging black holes across the entire universe. For the first time, researchers will be able to study the precise structure of neutron stars, the birth of black holes and the structure of the universe ...
Einstein Telescope (ET) Ghent University
The discovery of gravitational waves from merging black holes and neutron stars by Advanced LIGO and Advanced Virgo marked the beginning of new era in observing our universe and scientists are keen to fully open up this new window to the (dark side of the) cosmos.
ET will detect several hundred thousand gravitational wave signals per year and allow us listen to the sound of merging black holes across the entire universe. For the first time, researchers will be able to study the precise structure of neutron stars, the birth of black holes and the structure of the universe ...
Exploiting high aspect ratio etching processes of glass and dielectric materials to enable novel chemical, analytical, optical, and medical applications Vrije Universiteit Brussel
chemical interactions or to achieve well-defined flow configurations, so that e.g. novel or improved separation methods can be achieved. While very powerful (Bosch and cryogenic type) deep ...