Projects
Fault tolerance in self-assembly models Hasselt University
Self-assembly of organic donor-acceptor complexes within the confinement of a perovskite lattice: a fundamental study of the relation between structure and opto-electronic properties. Hasselt University
NANODIRECT: Toolbox for directed and controlled self-assembly of nanocolloids. KU Leuven
Self-assembly of organic donor-acceptor complexes within the confinement of a perovskite lattice: a fundamental study of the relation between structure and opto-electronic properties. Hasselt University
Configuration of Actives Surfaces by Self-Assembly (CASAS). KU Leuven
Symmetry driven self-assembly of hybrid POM/Protein Frameworks (PProFs) based on rational protein design and metal-oxo clusters KU Leuven
Development of a predictive model for hydrogel formation via a combination of synthesis and computational chemistry KU Leuven
Hydrogels are important materials with applications among others in tissue engineering. The goal of this project is to optimize a class of urea based hydrogelators previously developed in the host group via a combination of organic synthesis and computational analysis. Using organic synthetic methods, a diverse set of analogues of the urea based gelators will be produced. These compounds will serve as the structuring elements to form ...
New ways to explore fundamentals of the formation of self-assembled molecular networks at the liquid-solid interface KU Leuven
The spontaneous organisation of molecules into ordered patterns or complex systems, i.e. self-assembly, emerges in nature and plays a crucial role in life. It enables the formation of intricate structures in biological membranes, guides DNA assembly, and directs protein folding. In supramolecular chemistry, rapid progress has sparked numerous possibilities for leveraging intermolecular interactions across various fields. The development of ...