Projects
Exploration of single phase layered perovskites as candidate magnetoelectrics Hasselt University
Strain to stabilize metal halide PERovSkites: an Integrated effort from fundamentalS to opto-elec-tronic applicaTions (PERsist). KU Leuven
Strain to stabilize metal halide PERovSkites: an Integrated effort from fundamentalS to opto-electronic applicaTions (PERsist). Ghent University
Light detection and emission are crucial for displays, medical and security scanners. Given the societal relevance, there is an emerging need for novel opto-electronic materials with higher conversion effi- ciency and lower production cost. Metal halide perovskites are promising high-performance semicon- ductors due to their strong absorption and emission in a broad spectral range and their ease of manu- facturing. So far, integration in ...
Strain to stabilize metal halide PERovSkites: an Integrated effort from fundamentalS toopto-electronic applicaTions (PERsist). University of Antwerp
"Bandgap engineering of organic-inorganic mixed metal halide perovskites: A pathway to processing-friendly ultra high-efficient tandem solar cells". Hasselt University
Bandgap engineering of organic-inorganic mixed metal halide perovskites: A pathway to processing-friendly ultra high-efficient tandem solar cells Hasselt University
Ion substitution in hybrid perovskites: enhancing environmental stability and band gap tuning Hasselt University
Low dose in situ electron microscopy study on metal halide perovskites: Unravelling the role of defects and degradation mechanisms under bias, oxygen and moisture. University of Antwerp
Functional engineering of metal halide perovskites: a nonlinear optical study KU Leuven
Crystalline materials are essential components of modern technology, so science is putting great efforts in the research of new and innovative materials. While size, shape and compositional effects on the functional properties of nanomaterials have been widely explored, the influence of the crystal phase has received less attention. The ability of a material to adopt multiple lattice structures, i.e. structural polymorphism, allows tuning of ...