Pacific Northwest National Laboratory, Richland, WA 99354, USA.
J Magn Reson. 2013 Jan;226:64-9. doi: 10.1016/j.jmr.2012.08.009. Epub 2012 Aug 21.
High pressure magic angle spinning (MAS) nuclear magnetic resonance (NMR) with a sample spinning rate exceeding 2.1 kHz and pressure greater than 165 bar has never been realized. In this work, a new sample cell design is reported, suitable for constructing cells of different sizes. Using a 7.5 mm high pressure MAS rotor as an example, internal pressure as high as 200 bar at a sample spinning rate of 6 kHz is achieved. The new high pressure MAS rotor is re-usable and compatible with most commercial NMR set-ups, exhibiting low (1)H and (13)C NMR background and offering maximal NMR sensitivity. As an example of its many possible applications, this new capability is applied to determine reaction products associated with the carbonation reaction of a natural mineral, antigorite ((Mg,Fe(2+))(3)Si(2)O(5)(OH)(4)), in contact with liquid water in water-saturated supercritical CO(2) (scCO(2)) at 150 bar and 50°C. This mineral is relevant to the deep geologic disposal of CO(2), but its iron content results in too many sample spinning sidebands at low spinning rate. Hence, this chemical system is a good case study to demonstrate the utility of the higher sample spinning rates that can be achieved by our new rotor design. We expect this new capability will be useful for exploring solid-state, including interfacial, chemistry at new levels of high-pressure in a wide variety of fields.
尚未实现样品转速超过 2.1 kHz 且压力大于 165 bar 的高压魔角旋转(MAS)核磁共振(NMR)。在这项工作中,报告了一种新的样品池设计,适用于构建不同尺寸的电池。以 7.5mm 高压 MAS 转子为例,在样品转速为 6 kHz 时可实现高达 200 bar 的内部压力。新型高压 MAS 转子可重复使用且与大多数商业 NMR 设备兼容,具有较低的(1)H 和(13)C NMR 背景,并提供最大的 NMR 灵敏度。作为其众多可能应用的一个示例,该新功能应用于确定与天然矿物蛇纹石((Mg,Fe(2+))(3)Si(2)O(5)(OH)(4))的碳酸化反应相关的反应产物,该天然矿物与液态水在 150 bar 和 50°C 的水饱和超临界 CO(2)(scCO(2))中接触。这种矿物与 CO(2)的深部地质处置有关,但由于其铁含量,在低转速下会产生太多的样品旋转边带。因此,该化学体系是一个很好的案例研究,可以证明我们的新型转子设计可以实现更高的样品旋转速率的实用性。我们预计这种新功能将有助于在各种领域以新的高压水平探索包括界面在内的固态化学。
