Prof. Sami Jannin develops new hyperpolarization approaches for preparing nuclear spins in highly polarized or ‘aligned’ states to augment their sensitivity in magnetic resonance.
Category:
2025 – Sami Jannin
December 6th, 2024 by Stephan Grzesiek2023 – Songi Han
April 23rd, 2023 by Stephan GrzesiekProf. Songi Han uses magnetic resonance spectroscopy and relaxometry to study biomolecular interactions, biomolecular and materials surfaces, and the property of their hydration layers.
2021 – Matthew S. Rosen
August 11th, 2021 by Holger KlimekProf. Matt Rosen develops NMR and MRI technologies with a focus on MRI in the milliTesla regime, novel hyperpolarization and coherence control methods, and advanced approaches such as the deep learning-based AUTOMAP to enable robust and cost-efficient magnetic resonance tools.
2019 – Malcolm Levitt
August 8th, 2019 by Holger KlimekProf. Malcolm H. Levitt uses symmetry arguments to develop nuclear spin phenomena, such as error-compensated pulse sequences, symmetry-based recoupling in solid-state NMR, and long-lived nuclear spin states in solution NMR.
2017 – Jeffrey A. Reimer
August 8th, 2017 by Holger KlimekProfessor Reimer’s research generates new knowledge for environmental protection, sustainability, and provides fundamental insights to condensed matter via materials chemistry, physics, and engineering.
2015 – Bernhard Blümich
August 8th, 2015 by Holger KlimekProf. Bernhard Blümich explores NMR methodology and hardware, in particular low-field NMR, to understand the macroscopic properties of polymer and porous materials including tangible cultural heritage.
2013 – Lucio Frydman
August 8th, 2013 by Holger KlimekProfessor Frydman’s research focuses on developing magnetic resonance techniques merging spectroscopic, imaging and hyperpolarization concepts, that can shed new light on a wide range of clinical, biological, chemical, and physical processes.