2018
DOI: 10.1126/sciadv.aau1540
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Magic angle spinning spheres

Abstract: Spherical rotors can be used for magic angle spinning nuclear magnetic resonance.

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Cited by 47 publications
(37 citation statements)
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“…Note that the maximum tested pressure was not limited by the rotors, as their spinning rates would be predicted to increase with increasing pressure, but rather the maximum pressure was limited to ∼4 Bar due to safety concerns with regard to the connecting assemblies. Rotor B's maximum observed rate was a significant improvement over our previous maximum of 4.6 kHz for 9.5 mm rotors in air, which was achieved using rotor A at 4.1 Bar (Chen et al (2018)). As rotor A also performed better in our current tests, with a maximum rate of 5.2 kHz at 4.1 Bar, we attribute some of the performance gains to the higher precision 3D printing of our latest stators.…”
Section: Discussion Open Accessmentioning
confidence: 50%
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“…Note that the maximum tested pressure was not limited by the rotors, as their spinning rates would be predicted to increase with increasing pressure, but rather the maximum pressure was limited to ∼4 Bar due to safety concerns with regard to the connecting assemblies. Rotor B's maximum observed rate was a significant improvement over our previous maximum of 4.6 kHz for 9.5 mm rotors in air, which was achieved using rotor A at 4.1 Bar (Chen et al (2018)). As rotor A also performed better in our current tests, with a maximum rate of 5.2 kHz at 4.1 Bar, we attribute some of the performance gains to the higher precision 3D printing of our latest stators.…”
Section: Discussion Open Accessmentioning
confidence: 50%
“…Spherical rotors spin within the hemispherical stator cup by the application of a gas stream along the rotor's equator from a converging nozzle tangent to the rotor surface (Chen et al (2018)). The nozzle aperture is placed at the complement of the magic angle (35.26°) in order to tilt the spinning axis of the rotor to a value near the magic angle.…”
Section: Resultsmentioning
confidence: 99%
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“…Lowering the temperature from 15 K to 7 K will further increase the electron polarization from 29 % to 65 % on a 7‐Tesla ( 1 H 300 MHz) spectrometer and from 55 % to 91 % on a 14 Tesla ( 1 H 600 MHz) corresponding to at least a two‐fold potential improvement in DNP performance. The sample spinning rate at these extreme temperatures is lower than at higher temperatures and is likely to remain a limitation for some applications, but rotors of smaller diameter and alternative configurations such as recently reported spinning spheres should enable further improvements …”
Section: Hardware For Mas‐dnp Experiments At Temperatures Below 100 Kmentioning
confidence: 99%