: 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, Jorge A.; Tilch, Andreas; Aguilar Alva, Ana Paula; Bouvignies, Guillaume; Engelke, Frank; Ferrage, Fabien; Glémot, Agnes; le Paige, Ulric B.; Licciardi, Giulia; Luchinat, Claudio; Parigi, Giacomo; Pelupessy, Philippe; Ravera, Enrico; Ruda, Alessandro; Siemons, Lucas; Stenström, Olof; Tyburn, Jean-Max. - 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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