The Department of Membrane Science and Technology consists of several diverse, but synergetic, scientific disciplines:
Interested in what we exactly do? Please find below the links to our research projects, our publications, all dissertations, and the various awards and grants of our researchers.
Research projects
- Research projects
- Controlling Biofouling in Reverse Osmosis Systems treating Surface Water
- Low salt retention nanofiltration
- Ion exchange membranes for industrial application
- Steering protein functionality using smart dehydration
- Filtering soft particles
- Exploring transport limitations in alkaline electrolysis
- Clearing the Mist
- Prevention of biofilm formation
- Dense and highly stable PEM membranes
- Building surface charge-mosaic PEM membranes
- Channel-charged Mosaic Membranes
- New chemistry in a spinneret
- Recircanol: Circular recovery of ethanol
- Recircanol: Design of circular processes
- Removal of nanoplastics
- Polyelectrolyte multilayer on ceramic membranes
- PEM membranes for produced water
- Recovery of valuable resources
- Recovery of proteins
- Design of novel charge-mosaic membrane processes
- Modeling mass transport across charge-mosaic membranes
- Integrated greywater treatment using nanofiltration for the production of reusable water
- Understanding and controlling membrane fouling in biorefinery applications
- Sustainable K⁺/Na⁺-selective membranes from PVA-PVS saloplastics
- Techno-feasibility & sustainability assessment methodology for membrane process development
- Green Chemistry in a Spinneret
- Micropollutant removal using nanofiltration and concentrate recirculation
- Osmotically-assisted reverse osmosis
- Low salt-rejection reverse osmosis
- Solvent stable nanofiltration
- Sustainable membrane production from green solvents
- Separator development for alkaline water electrolysis
- SMARTIER: Development of a mobile setup to enable industrial effluent reuse
- SMARTIER: Model Predictive Control tool for enabling industrial effluent reuse