Projects
Multifunctional dual responsive core-shell polymer nanoparticles Hasselt University
XL-Lion: Advanced lithium ion batteries with dual ionic-electronic conducting core-shell particles Ghent University
Development of advanced osteoinductive stimuli-responsive core/shell nanocarriers for use in bone tissue regeneration. Hasselt University
Development of advanced osteoinductive stimuli-responsive core/shell nanocarriers for use in bone tissue regeneration. Hasselt University
Development of 3D printed core/shell hydrogels towards patient-specific breast reconstruction Ghent University
Nowadays, breast implants, lipofilling and micro-surgical free tissue transfer are the most popular procedures to repair soft tissue defects resulting from mastectomies/lumpectomies following breast cancer. With breast cancer being the most common cancer affecting women worldwide, there is a clinical need for reconstructive strategies addressing current drawbacks and limitations. The development of biomimetic materials able to promote ...
Understanding and optimization of the property-structure connection of Lanthanide doped luminescent nanoparticles through advanced transmission electron microscopy. University of Antwerp
Unlocking the triple nitrogen bond: increasing the Faradaic efficiency with enhanced electrocatalysts achieved through a combination of high-end electrochemistry and electron microscopy. University of Antwerp
electron tomography combined with state-of-the-art electrochemistry to boost electrocatalytic CO2 reduction. University of Antwerp
Ag2S@Ln-COFs/CTFs Nanoplatforms for Simultaneous Temperature and Oxygen Sensing Ghent University
The accurate sensing of local temperatures and/or the in situ sensing of oxygen are very important diagnostic tools for biomedical applications such as cancer and inflammation diseases. The goal of this project is to create a highly sensitive luminescence biosensor for dual thermometry and oxygen sensing operating in the physiological range (25 –50 °C). This will be accomplished through systematic Ag2S@Ln-COFs/CTFs core–shell particles design ...