Ultra fast magic angle spinning solid–state NMR spectroscopy of intact bone
Magnetic Resonance in Chemistry, 2016•Wiley Online Library
Ultra fast magic angle spinning (MAS) has been a potent method to significantly average out
homogeneous/inhomogeneous line broadening in solid‐state nuclear magnetic resonance
(ssNMR) spectroscopy. It has given a new direction to ssNMR spectroscopy with its different
applications. We present here the first and foremost application of ultra fast MAS (~ 60 kHz)
for ssNMR spectroscopy of intact bone. This methodology helps to comprehend and
elucidate the organic content in the intact bone matrix with resolution and sensitivity …
homogeneous/inhomogeneous line broadening in solid‐state nuclear magnetic resonance
(ssNMR) spectroscopy. It has given a new direction to ssNMR spectroscopy with its different
applications. We present here the first and foremost application of ultra fast MAS (~ 60 kHz)
for ssNMR spectroscopy of intact bone. This methodology helps to comprehend and
elucidate the organic content in the intact bone matrix with resolution and sensitivity …
Ultra fast magic angle spinning (MAS) has been a potent method to significantly average out homogeneous/inhomogeneous line broadening in solid‐state nuclear magnetic resonance (ssNMR) spectroscopy. It has given a new direction to ssNMR spectroscopy with its different applications. We present here the first and foremost application of ultra fast MAS (~60 kHz) for ssNMR spectroscopy of intact bone. This methodology helps to comprehend and elucidate the organic content in the intact bone matrix with resolution and sensitivity enhancement. At this MAS speed, amino protons from organic part of intact bone start to appear in 1H NMR spectra. The experimental protocol of ultra‐high speed MAS for intact bone has been entailed with an additional insight achieved at 60 kHz. Copyright © 2015 John Wiley & Sons, Ltd.
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