Projects
A Study on Design, Development, and Evaluation of the Optimal Game-Based Learning Method to Enhance Hazard Perception Skills for Adolescent Novice Moped Drivers in Vietnam Hasselt University
Development of a test method for determining the wearing comfort of clothing using IR thermography and AI HOGENT
Development of a scale up method for multiphase reactions based on in situ measurement of heat mixing KU Leuven
PFAST - Development and validation of a universal method for fast, low-cost and sensitive screening of PFAS in water, soil and biomass Ghent University
Currently, there is a great need for a low-cost, rapid and sensitive screening technique for the determination of residual per- and polyfluoroalkyl compounds (PFAS) in water, soil and biomass. Through this research project, we aim to further develop an alternative approach, complementary to the current state-of-the-art SPE LC/MSMS determination, but allowing for a cheap, fast and universal detection of PFAS.
Method development for multi-modal imaging mass spectrometry (LA-ICP-MS and MALDI-MS): fusing elemental with molecular information to gain insight into hypoxia-driven processes in cancer Ghent University
Tumor hypoxia is one of the hallmarks of cancer and has turned into a central issue in cancer treatment since it is associated with malignant tumor progression, resistance to therapy and increased metastatic spread. To date, many aspects of hypoxia-induced changes in tumors remain to be elucidated. This drives the need to develop multi-modal imaging workflows for discovering and identifying key biomolecules in the heterogeneous tumor ...
Development of a novel optical signal processing method for analyzing data of the deformations of the asphalt construction by using Fiber Bragg technology in order to design new asphalt model. University of Antwerp
Method development with tandem ICP-mass spectrometry (ICP-MS/MS) – the next level Ghent University
The location of a collision/reaction cell (CRC) in-between two quadrupole filters in tandem ICP-mass spectrometry (ICP-MS/MS) provides exceptional capabilities for avoiding spectral interference. This project aims at extending the application range and improving accuracy and precision by (i) developing an approach for multi-element analysis based on the use of NH3 as a “universal” reaction gas, (ii) investigating the optimum choice of an ...