NEWSLETTER OF H2020 - INFRAIA-02-2020 "PANACEA" |
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Editor-in-chief: Raphaële COULON |
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Eight undergraduate, master's and PhD students from accross Europe had the opportunity to embark on a fully funded programme that included hands-on training in sample and probe handling, lectures on instrumentation, and in-depth DNP theory. The immersive experience allowed participants to develop pratical skills, interact with leading experts in the fields, and gain valubale insights into solid-state NMR research.
This initiative was made possible thanks to the outstanding coordination of our partner team at Florida State University. In particular, we wish to acknowledge Frédérick Mentink-Vigier, Ilya Litvak and Fraith Scott for their support, ensuring the success of this training. |
| PANACEA key numbers- 1650 access days
- 27 spectrometers
- > 200 chemistry-related projects
| - 4 user meetings
- 3 hands-on trainings
- 1 NMR summer School
| - 3 industry-targeted workshops
- 32 taster days for industrials
- 8 summer fellowships for students
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| | | The consortium is pleased to officially announce its final celebration: The 4th and last Users Meeting! Held back-to-back with EUROMAR 2026, this annual event aims to foster collaboration and build bridges between solid-state NMR experts and scientist from both industry and academia.
We warmly invite all interested participants to join us for a day dedicated to showcasing the lastest advancements in solid-state NMR applications for chemistry and material science.
Read more... |
| JRA publication: paramagnetic systems by solid-state NMRParamagnetic inorganic and organic materials, including catalysis and battery materials, present a challenge in solid-state NMR due to inherent resonance broadening, large chemical shift perturbations, increased relaxation rates and field inhomogenities. In this recent publication, the authors present solutions for solid catalysts and battery materials using fast magic angle spinning (MAS), above 100 kHz.
This ultra-fast spinning speed is associated with a smaller rotor diameter and hence a smaller amount of detectable material, but the authors show that the relative decrease in signal strength is mitigated by a substantial resolution improvement arinsing from a more complete suppression of the spinning side band manifold...
Read more...
| | Koppe, J., Sanders, K., Robinson, T., Lejeune, A., Proriol, D., Wegner, S., Purea, A., Engelke, F., Clément, R., Grey, C., Pell, A. and G. Pintacuda, Resolving Structures of Paramagnetic Systems in Chemistry and Materials Science by Solid-State NMR: The Revolving Power of Ultra-Fast MAS, Angew. Chem. Int. Ed., 137 (1), e202408704, 2025. | |
| PANACEA extended for 12 additional months!
PANACEA was granted by the European Commission a 12-month extension. The project will therefore continue running smoothly up until end of August 2026.
We warmly welcome current and new users to apply for measurement time in one of our 8 facilities by submitting a scientific project on the dedicated project submission portal.
Learn more about the current access opportunities... | |
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