Experimental resolution of distinct dynamical processes in molecules can prove impossible when they are correlated to one another. In nuclear magnetic resonance (NMR) spectroscopy, couplings between ...

Figure 2: Determining the relative orientation and dynamics of A-form helices using an order tensor analysis of RDCs 46,99. Figure 3: Typical RDCs measured in base and sugar moieties of RNA using 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 ...

NMR spectroscopy is a physicochemical analysis technique that is based on the interaction of an externally applied radiofrequency radiation with atomic nuclei. During this interaction there is a net ...

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 ...

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 this interview, Marcel Lachenmann describes the importance of characterizing small molecules in the pharma, food and polymer industry and how NMR achieves this. Please outline what information ...

In NMR experiments, magnetizations that are perpendicular to the static magnetic field B0 will rotate about the B0 field at its typical Larmor frequency. This phenomenon is commonly known as chemical ...

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 ...