Solid-state nuclear magnetic resonance (NMR) spectroscopy—a technique that measures the frequencies emitted by the nuclei of some atoms exposed to radio waves in a strong magnetic field—can be used to ...

It’s an open secret that organic chemistry students struggle to learn a skill that is integral to the field: interpreting nuclear magnetic resonance spectra. Organic chemists use this important tool ...

The desire for automated quantitative NMR (qNMR) analysis has become the challenge to solve. In this article, we present recent data from a series of 1D and 2D qNMR applications of CRAFT – including ...

NMR spectra are typically collected in solutions made up of deuterated solvents due to the fact that a protonated solvent will yield large solvent peaks which may hide the solute’s spectral features.

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 ...

NMR makes use of specific stable isotopes, commonly 13 C, but there is only one NMR-active stable isotope for oxygen, 17 O. The effects of using this oxygen isotope over other isotopes include lower ...

Determining alcohols using NMR spectroscopy is carried out in order to introduce students to NMR spectroscopy at an early stage in their undergraduate career. The experiment aims to enable students to ...

Therapeutic antibodies are among the most widely used biologic medicines, yet detecting subtle structural differences in these complex proteins remains challenging. Researchers in Japan have ...

Nuclear magnetic resonance (NMR) spectroscopy represents a technique that is dependent on the magnetic properties of the atomic nucleus. When positioned in a strong magnetic field, certain nuclei ...