Publications
Zinc-indium-sulfide favors efficient C - H bond activation by concerted proton-coupled electron transfer. KU Leuven
C - H bond activation is a ubiquitous reaction that remains a major challenge in chemistry. Although semiconductor-based photocatalysis is promising, the C - H bond activation mechanism remains elusive. Herein, we report value-added coupling products from a wide variety of biomass and fossil-derived reagents, formed via C - H bond activation over zinc-indium-sulfides (Zn-In-S). Contrary to the commonly accepted stepwise electron-proton transfer ...
A draft tube to improve mixing in swirling flow-based solid–liquid mixing reactors KU Leuven
The Swirl Flow Reactor (SFR) is a recently proposed specially designed reactor to address challenges of solid–liquid mixing for high-temperature and high-pressure processes. Previous research has shown that the mixing homogeneity of the SFR is not yet optimal and has still potential for improvement. To enhance the homogeneity of the SFR and to optimize the utilization of the previously identified Precessing Vortex Core at the nozzle, an ...
Methionine and its hydroxy analogues: the paths toward their sustainable chemical synthesis KU Leuven
Solvent-driven isomerization of muconates in DMSO: reaction mechanism and process sustainability KU Leuven
Feasibility of wood as a renewable carbon feedstock for the production of chemicals in Europe KU Leuven
In transitioning to a carbon- neutral chemical industry, the intake of fossil feedstocks will have to be reduced by maximizing end- of- life product recycling and introducing alternative feedstocks based on renewable carbon. This perspective article analyses the potential of domestically grown and sourced woody biomass for the supply of renewable carbon for chemicals in Europe. The European chemical industry can become a major consumer of woody ...
In Situ UV-Vis-NIR Absorption Spectroscopy and Catalysis. KU Leuven
This review highlights in situ UV-vis-NIR range absorption spectroscopy in catalysis. A variety of experimental techniques identifying reaction mechanisms, kinetics, and structural properties are discussed. Stopped flow techniques, use of laser pulses, and use of experimental perturbations are demonstrated for in situ studies of enzymatic, homogeneous, heterogeneous, and photocatalysis. They access different time scales and are applicable to ...