Accurate determination of protein structure by NMR spectroscopy is challenging for larger proteins, for which experimental data are often incomplete and ambiguous. Evolutionary sequence information ...

An improved technique for ultra-high-resolution NMR spectroscopy may prove useful for applications such as process optimization, metabolomics, and studies of intrinsically disordered proteins. The ...

In order to fully understand the underlying factors that govern the outcome of a chemical reaction, chemists need the ability to monitor and follow the reaction. NMR spectroscopy is an excellent way ...

LC-NMR combines two techniques - liquid chromatography (LC) and nuclear magnetic resonance (NMR). It involves a HPLC separation followed by the detection of separated components by UV or other methods ...

RESIDUAL DIPOLAR couplings, or RDCs, have become an invaluable tool for scientists trying to decipher the structure of large biological molecules with nuclear magnetic resonance spectroscopy. Chemists ...

Nuclear magnetic resonance (NMR) spectroscopy is perhaps the most useful technique in the organic chemist’s toolkit. But conventional NMR requires the sample to be placed in a very high magnetic field ...

Solid-State NMR has become an important method in zeolite research. Numerous new developments and applications of solid-state NMR techniques have evolved. Just to name a few of the more important ones ...

Fluorine-19 NMR brings a new dimension to the analysis group of fluorine-containing compounds. The wider chemical shift range in 19 F NMR makes it possible to resolve each fluorine-containing ...

NMR of solids is very different from that of liquids, for a simple reason: in liquids the molecules move, in solids they do not (usually). There are several important interactions which are not seen ...