MiEl will develop a novel synthesis technology for the chemical industries, combining the advantages of electrochemistry, micro process engineering and flow-chemistry. The ambitious research objective is to upscale these technologies using inte-grated cell concepts such as printed circuit board technology (PCB technology) with integrated process control, which can be assembled in arrays for the safe, flexible and eco-friendly synthesis of chemical products. This will allow new syntetic routes for the sustainable chemical industry of the future.
Doctoral network for microprocess engineering for electrosynthesis
Details
| Projektzeitraum | 01.01.2023 - 30.06.2027 |
|---|---|
| Fördergeber | EU |
| Förderprogramm |
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| Department | |
| Projektverantwortung (Universität für Weiterbildung Krems) | Dipl.-Ing. Dr. Martin Brandl |
Team
Publikationen
Derakhshani, M.; Hilber, W.; Mirsian, S.; Posnicek, T.; Jakoby, B.; Brandl, M. (2025). PCB-Based Electrochemical Electrodes with Self-temperature Regulation Functionality for Electrochemical Studies at Target Temperatures. Proceedings Eurosensors 2025, 1: 185 - 186, AMA Service GmbH
Vorträge
Cultural and natural heritage protection in ProteCHt2save and STRENCH
International Conference „GeoHazards and Climate Change in Geoparks”, 06.05.2022
STRENCH Online Summer Schools 2020-2021
Boosting resilience of Europe’s cultural heritage to climate change. Online Webinar e-CREHA, 28.04.2022
Self caused climate change in our cultural landscapes
Summer School Strench - Risk management and protect strategies, 09.06.2021
Schutz von Kulturgt durch Prävention, Bewusstseinsbildung und webgestützte Prognose-Tools
Sotschi-Dialog: Runder Tisch "Schutz von Kulturgütern: Österreichisch-russischer Kooperationsraum", 13.04.2021
