Projecten
DeLIVER: Optische microscopie van hoge resolutie van nanosized pore dynamics in endothelial cellen Vrije Universiteit Brussel
These skills are applied to reveal ...
Op weg naar snellere optische mapping van DNA met superresolutie met behulp van plasmon-versterkte fluorescentie KU Leuven
Human microbiome science is advancing, showing promise of having important impacts on human health with new insights into disease etiology and general human biology. Accordingly, DNA sequencing platforms have been developed rapidly, expanding the scope in microbiome research. Among others, optical mapping technique, capable of imaging single DNA molecules provides access to genetic information on single molecules up to ~1 Mbp in length. It ...
Maak geconvergeerde optische draadloze configuraties mogelijk met celvrije technologieën voor 6G-netwerken met hoge dichtheid KU Leuven
EMPOWER-6G proposes a novel converged optical-wireless architecture that realizes an efficient 6G Cell-Free (CF)-based access network for high-density and high-coverage deployments. The proposed architecture takes full advantage of the distributed processing CF concept, as well as of wireless mmWave solutions, while being in-line with the O-RAN Alliance. Specifically, the EMPOWER-6G vision is based on the development of novel solutions at the ...
Een spelwijziging in continue biosensing: moleculair ontworpen, op affiniteit gebaseerde nanoschakelaars voor persoonlijke monitoring KU Leuven
Generic technology that allows continuous sensing of a wide range of biomolecular parameters could revolutionise patient monitoring and enable truly personalised therapy. Commercial sensors are available for continuous monitoring of glucose, but do not exist for other molecules that are important for monitoring disease status and treatment effect, including peptides, proteins, hormones, and drugs. The ambition of CONSENSE is to provide a game ...
Geïntegreerde, zelf samengestelde, schakelbare systemen en materialen: op weg naar responsieve organische elektronica - een multi-site innovatieve trainingsactie. KU Leuven
iSwitch will offer top-level multi-disciplinary and supra-sectorial training to a pool of talented young researchers, involving contributions from different scientific and technological fields such as, supramolecular chemistry, materials, nanoscience, physics and engineering. iSwitch’s appointees will be trained through lecture courses, dedicated international schools and workshops, topical conferences, secondments to other consortium nodes ...
Multi-component nanodeeltjes als bimodale contrastmiddelen voor MRI en optische detectie van tumoren en voor gerichte fotodynamische therapie KU Leuven
The main aim of this proposal is to synthesize a range of lanthanide containing nanoparticles with an upconverting core, that can be excited in the infrared region to yield emission in the visible range, as for MRI and optical imaging. The nanoparticles will be covered with a rare earth doped MRI active shell and decorated with targeting moieties, which offers a means of targeting cancer cells that greatly over express the receptors. Further ...
Baanbrekende fotonische reactoren voor hoog-efficiënte, door zonlicht aangedreven chemische processen Universiteit Hasselt
Vroegstadium CARdiovasculaire Ziektedetectie met Geïntegreerde Silicium Fotonica Universiteit Gent
Vroegtijdige identificatie van personen die risico lopen op CVD maakt vroegtijdige interventie mogelijk om het pathologische proces te stoppen of om te keren. Dit is de drijfveer van Medtronic en partners om een mobiel, goedkoop, niet-invasief, point-of-care screeningsapparaat voor CVD te ontwikkelen. Beoordeling van arteriële stijfheid door meting van de aortapulssnelheid (aPWV) is opgenomen in de meest recente ESC/ESH-richtsnoeren voor ...
Moleculaire materialen voor op de chip geïntegreerde kwantumlichtbronnen KU Leuven
ARTEMIS proposes fundamental research toward the development of integrable single and entangled photon sources based on metallorganic molecular compounds. The project is motivated by the urgent need for novel quantum sources with unprecedented versatility, flexibility and performance. This goal will be pursued by resorting to molecular materials, based on transition metal and/or lanthanide ions with organic moieties, characterized by tunable ...