Projecten
A multi-disciplinary international effort to identify clinical, molecular and social factors impacting cutaneous leishmaniasis Instituut voor Tropische Geneeskunde
in the Mediterranean basin and declared as emerging diseases in the EU due to climate change and population
displacement. The LeiSHield-MATI consortium will for the first time investigate in an integrative fashion the complex
parasite-vector-host interplay in cutaneous leishmaniasis affecting Morrocco, Algeria, ...
Innovative Proteomics Approach to Identify Fluid Biomarkers for Frontotemporal Degeneration Vlaams Instituut voor Biotechnologie
Unravelling the molecular basis of the Kupffer cellhepatocyte crosstalk and its role in the functional specialization of liver Kupffer cells. — Liver ID3ntity - (Marie Curie Individual Fellowship voor Aimée Bugler-Lamb) Vlaams Instituut voor Biotechnologie
Integrated people - centred primary health care implementation in Bolivia: a case study to identify obstacles and opportunities. Universiteit Gent
Tracing Ions in Mass Spectra to Identify Small Molecules (TractION). Universiteit Antwerpen
Detecting Degrees of Density in Aggregates:Can we hear a cluster? Orpheus Instituut
Considering a cluster to be a psycho-physiological phenomenon of which the individual constituents are losing perceptibility in favor of its contour, a double experiment was set up to study the aural perception of aggregates with varying degrees of density within a fixed contour. The primary interest was vested in detecting quantity (number of tones), quality (identity of tones), cohesion (gaps in the accumulation) and contour (size of the ...
The influence of ecological and human factors on western gorilla and central chimpanzee density and ranging patterns in a non-protected area in southeast Cameroon Koninklijke Maatschappij voor Dierkunde van Antwerpen
Silicium Alloying Anodes voor High Energy Density Batterijen bestaande uit Lithium Rich Cathodes en Safe Ionic Liquid Elektrolyten voor Enhanced High VoltagE Performance. KU Leuven
Si-DRIVE will develop the next generation of rechargeable Li-ion batteries, allowing for cost competitive mass market EVs by transformative materials and cell chemistry innovations, delivering enhanced safety with superior energy density, cycle life and fast charging capability using sustainable and recyclable components.The technology encompasses amorphous Si coated onto a conductive copper silicide network as the anode with polymer/ionic ...