Study of brønsted acidity of zeolites using high-resolution proton magnetic resonance with magic-angle spinning

We report the results of a study of human breast ductal carcinomas, conducted by using high resolution magic angle spinning proton magnetic resonance spectroscopy (HRMAS 1HMRS). This recently developed spectroscopic technique can measure tissue metabolism from intact pathological specimens and ident

## Abstract High‐resolution NMR spectra of materials subject to anisotropic broadening are usually obtained by rotating the sample about the magic angle, which is 54.7° to the static magnetic field. In projected magic angle spinning (p‐MAS), the sample is spun about two angles, neither of which is

## Abstract The recently developed technique of gradient, high‐resolution magic‐angle spinning NMR (g‐hr‐MAS‐NMR) spectroscopy was applied to the study of __ex vivo__ human lipoma and liposarcoma tissue. Compared with conventional ^1^H‐NMR, the g‐hr‐MAS method yielded a large improvement in spectra

## Abstract The application of new gradient, high‐resolution, magic angle spinning (MAS) ^1^H nuclear magnetic resonance (NMR) spectroscopy to the study of intact undifferentiated and differentiated NIH 3T3 F442A cells demonstrated improved spectral resolution and sensitivity compared with static s

By application of the magic angle spinning (BIAS) technique it was possible to observe highly resolved proton NMR spectra of the OH groups of amorphous silica-alumina. The spectra exhibit two lines at 2 and 7 ppm. The former line must be ascribed to non-acidic OH groups since it also occurs for sili

## Abstract The development of high‐resolution magic angle spinning (HR‐MAS) NMR spectroscopy for intact tissue analysis and the correlations between the measured tissue metabolites and disease pathologies have inspired investigations of slow‐spinning methodologies to maximize the protection of tis