The Division of Applied Magnetic Resonance is pursuing interdisciplinary research with particular focuses on studies of transport and phase transition phenomena in soft matter, applications of solid-state NMR approaches for material research, and a synergistic combination of the conventional NMR experimentation with magnetic resonance imaging. We actively participate in the general education of spin resonance phenomena, also for those working in closely related disciplines.
Current Projects
- Direct observation of ion dynamics in supercapacitors
Duration: 2023 –
Funding by: DAAD PRIME - Exploring complex phase states in structurally-disordered nanoporous solids with diffusion and nuclear magnetic relaxation measurements
Duration: 2023 –
Funding by: Deutsche Forschungsgemeinschaft (DFG) - Direct observation of ion dynamics in supercapacitors
Duration: 2022 –
Funding by: Deutsche Forschungsgemeinschaft (DFG) - High temperature, high pressure NMR Diffusometry in organic molecules
Duration: 2020 –
Funding by: BASF
Completed Projects
- Freezing and melting transitions in mesoporous solids: From fundamental understanding to advanced characterization using thermoporometry
Duration: 2018 – 2022
Funding by: Deutsche Forschungsgemeinschaft (DFG) - Structure and transport characterisation of hierarchical porous solids.
Duration: 2014 – 2018
Funded by: Deutsche Forschungsgemeinschaft - Porosimetry by diffusion analysis.
Duration: 2009 – 2014
Funded by: Deutsche Forschungsgemeinschaft - NMR studies and theoretical approaches to the correlation of diffusion behaviour in complementary pore spaces.
Duration: 2009 – 2014
Funded by: Deutsche Forschungsgemeinschaft - Dynamics and phase transitions under spatial confinements.
Duration: 2008 – 2014
Funded by: Deutsche Forschungsgemeinschaft - Driven diffusion in nanoscaled materials. Subproject of FOR877: From local constraints to macroscopic transport.
Duration: 2007 – 2015
Funded by: Deutsch Forschungsgemeinschaft - Transport properties of near- and supercritical fluids in mesopores probed by the pulsed field gradient NMR method.
Duration: 2007 – 2011
Funded by: Deutsche Forschungsgemeinschaft - Particle Dynamics in Nano-Structured Channels. Subproject of FOR877: From local constraints to macroscopic transport.
Duration: 2007 – 2011
Funded by: Deutsche Forschungsgemeinschaft - Phase transitions in mesoscopically-limited systems: Combined use of NMR and molecular dynamics.
Duration: 2006 – 2009
Funded by: Deutsche Forschungsgemeinschaft