: Combining high-resolution high-field nuclear magnetic resonance (NMR) with an evolution of spin systems at a low magnetic field offers many opportunities for the investigation of molecular motions and hyperpolarization and the exploration of field-dependent spin dynamics. Fast and reproducible transfer between high and low fields is required to minimize polarization losses due to longitudinal relaxation. Here, we introduce a new design of a sample shuttle that achieves remarkably high speeds ( vmax ∼ 27 m s-1). This hybrid pneumatic-mechanical apparatus is compatible with conventional probes at the high-field center. We show applications in water relaxometry in solutions of paramagnetic ions, high-resolution proton relaxometry of a small molecule, and sample shuttling of a solution of a 42 kDa protein. Importantly, this fast sample shuttle (FSS) system is narrow, with a diameter of d = 6 mm for the sample shuttle container based on a standard 5 mm outer diameter glass tube, which should allow near access to the sample for magnetic manipulation at a low field.
A fast sample shuttle to couple high and low magnetic fields and applications in high-resolution relaxometry / Villanueva-Garibay, J.A., Tilch, A., Aguilar Alva, A.P., Bouvignies, G., Engelke, F., Ferrage, F., Glémot, A., le Paige, U.B., Licciardi, G., Luchinat, C., Parigi, G., Pelupessy, P., Ravera, E., Ruda, A., Siemons, L., Stenström, O., Tyburn, J.. - In: MAGNETIC RESONANCE. - ISSN 2699-0016. - STAMPA. - 6:(2025), pp. 229-241. [10.5194/mr-6-229-2025]
A fast sample shuttle to couple high and low magnetic fields and applications in high-resolution relaxometry
Licciardi, Giulia;Luchinat, Claudio;Parigi, Giacomo;Ravera, Enrico;
2025
Abstract
: Combining high-resolution high-field nuclear magnetic resonance (NMR) with an evolution of spin systems at a low magnetic field offers many opportunities for the investigation of molecular motions and hyperpolarization and the exploration of field-dependent spin dynamics. Fast and reproducible transfer between high and low fields is required to minimize polarization losses due to longitudinal relaxation. Here, we introduce a new design of a sample shuttle that achieves remarkably high speeds ( vmax ∼ 27 m s-1). This hybrid pneumatic-mechanical apparatus is compatible with conventional probes at the high-field center. We show applications in water relaxometry in solutions of paramagnetic ions, high-resolution proton relaxometry of a small molecule, and sample shuttling of a solution of a 42 kDa protein. Importantly, this fast sample shuttle (FSS) system is narrow, with a diameter of d = 6 mm for the sample shuttle container based on a standard 5 mm outer diameter glass tube, which should allow near access to the sample for magnetic manipulation at a low field.
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