Kathrin Eckert, M.Sc.
Research
Stimuli-responsive gels are widely known in the field of intelligent materials. Depending on environmental changes, these gels undergo configurational changes. The gels can swell or collapse due to the occurring trigger. This special characteristic as well as the possible utilization of 3-D printing methods for customized shaped gels offer a wide range of potential applications. The overall goal of this project is the application of smart gels in different separation processes to provide self-regulating features and reach autonomous reactor control.
Teaching
- Exercise: Thermische Grundoperationen
Articles
2024
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Exploring pNIPAM lyogels : experimental study on swelling equilibria in various organic solvents and mixtures, supported by COSMO-RS analysis
Fluid Phase Equilibria 586: 114182 (2024-11-01)
Open Access | Verlags DOI -
Structuring of electrorheological fluids in polymer matrices for miniature actuators
Heliyon 10 (20): e39138 (2024)
Open Access | Verlags DOI
Presentations
- Unveiling the Thermodynamics of Stimuli-Responsive Gels: A COSMO-RS and Molecular Dynamics Study
K. Eckert; S. Müller; I. Smirnova, 2nd International Seminar on Modelling, Simulation and Machine Learning for the Rapid Development of Porous Materials., Madrid, Spain (2024) - Thermodynamic modelling of the swelling behaviour of stimuli-responsive gels in multicomponent systems using PC-SAFT
K. Eckert; J. Bittner; S. Müller; X. Hu; I. Smirnova; W. Chapman, MSML Conference, Cologne, Germany (2023)