Projects
Development of an in vivo microPET imaging platform for the non-invasive investigation of novel therapeutics in Alzheimer's disease. University of Antwerp
[18F]-RGD-K5 microPET imaging of tumor angiogenesis during anti-angiogenic therapy in mouse models. KU Leuven
APPLIE4MOS: Advanced Polymer Prototyping Line for Micro- and Micro-Optical Systems Vrije Universiteit Brussel
Femtosecond laser processing for micro- and nanopatterning of metal halide perovskite thin films for enhanced light management in solar cells KU Leuven
Photovoltaic technology stands as a beacon in the challenge to reduce CO2 emissions by maximizing the use of solar energy. Over the past
decade, perovskite materials have emerged as game-changers, offering a powerful combination of affordability and high efficiency. In
addition, their remarkable properties make them prime candidates for solar cell applications and are called to revolutionize photovoltaic
technology. However, ...
M&NFab: KU Leuven core facility for Micro- and NanoFabrication KU Leuven
The Leuven NanoCentre (LeNa) cleanroom has already become a focal point for multidisciplinary research involving micro and nanofabrication. A core facility for micro- and nanofabrication, M&NFab, will allow to acquire additional resources to open up the cleanroom to a yet wider user base, better support and training, and a more systematic approach to cost sharing, equipment booking, inventory, etc. The core facility will be active in ...
Biofabrication of organ-specific functional micro- and macrovasculature KU Leuven
The biofabrication of 3D biomimetic tissue analogs, which accurately mimic the properties of native tissue, have an enormous potential in biomedical applications (drug discovery, cancer research, regenerative medicine,…). A basic prerequisite for the survival, maturation and function of 3D engineered tissues is the establishment of blood vessels. The most critical challenge in complex tissue engineering is the integration of an organ-specific ...
Scalable Bulk Acoustic Wave Solutions to Separate Micro- and Nanoparticles in Flow (AWESOME) Hasselt University
SBO Project: Scalable Bulk Acoustic Wave Solutions to Separate Micro- and Nanoparticles in Flow (AWESOME) Vrije Universiteit Brussel
fast growing research field addressing challenges in different fields such
as biology, medicine, chemistry, engineering, and physics. In particular,
acoustofluidic separation of microparticles in fluids has proven to be a
powerful tool due to the label-free, biocompatible, and contact-free
nature of the technology. Although this ...