Publications and projects according to DDC
Publications
Publications and projects according to DDC 621.3: Electrical engineering and electronics
-
Marmet, Philip; Holzer, Lorenz; Hocker, Thomas; Boiger, Gernot K.,
2024.
Modellbasierte Entwicklung von Elektroden für Festoxid-Brennstoffzellen.
In:
VPE/PLM Swiss Symposium, OST – Ostschweizer Fachhochschule, Rapperswil, Schweiz, 11. April 2024.
-
Katepalli, Anudeep; Wang, Yuxin; Lin, Jou; Harfmann, Anton; Bonmarin, Mathias; Krupczak, John; Shi, Donglu,
2024.
Solar Energy.
271(112444).
Available from: https://doi.org/10.1016/j.solener.2024.112444
-
Zbinden, Oliver; Knapp, Evelyne; Tress, Wolfgang,
2024.
Identifying performance limiting parameters in perovskite solar cells using machine learning.
Solar RRL.
Available from: https://doi.org/10.1002/solr.202300999
-
Wlodarczyk, Jakub Karol; Schärer, Roman Pascal; Friedrich, Andreas; Schumacher, Jürgen,
2024.
Upscaling of reactive mass transport through porous electrodes in aqueous flow batteries.
Journal of the Electrochemical Society.
171(020544).
Available from: https://doi.org/10.1149/1945-7111/ad258e
-
Marmet, Philip; Holzer, Lorenz; Hocker, Thomas; Boiger, Gernot Kurt,
2023.
Multiscale-multiphysics model for novel ceramic solid oxide fuel cell electrodes.
In:
18th International Conference of Multiphysics, Graz, Austria, 14-15 December 2023.
Projects
Projects according to DDC 621.3: Electrical engineering and electronics
-
Development of the Waste Management Ecosystem based on a Smart Connected Product-Service-System (PSS)
-
Low-power Sensor
Development of a low-power sensor that can be used to trigger or stop other applications that require more energy.
-
Bidirectional DC Charging Station with PV Direct Connection and Intelligent Load Management
-
Low-cost device for efficient cook stoves monitoring
Development of an energy autonomous low-cost monitoring device to monitor cookstove usage and report the information using LPWAN systems
-
Defect Engineering, Advanced Modelling and Characterization for Next Generation Opto-Electronic-Ionic Devices
In the project Defect Engineering, Advanced Modelling and Characterization for Next Generation Opto-Electronic-Ionic Devices (OptEIon), we investigate the interplay between electron and ionic conductivity in metal-halide perovskite semiconductors. We plan to prepare samples, characterize the transient optoelectronic ...