Berkeley researchers have recovered high-resolution nuclear magnetic resonance (NMR) spectroscopy data from experimental samples in a grossly nonuniform field. The new "ex situ" technique could ...

Rheo-NMR has been able to provide a direct window on a variety of behaviour, including slip, shear-thinning, shear banding, yield stress behaviour, nematic director alignment and shear-induced ...

Mitrovic hopes the guidance this research provides in how to optimize flat coils will be useful to other physicists interested in using NMR to investigate exotic materials and states of matter.

Researchers in France have made a breakthrough in nuclear magnetic resonance (NMR) spectroscopy that allows the technique to be used effectively on nanolitre-sized solid samples for the first time.

NMR technology works by placing an object inside of a cylindrical coil to bombard the object with radio waves, causing nuclei within the object to give off signals that offer scientists information ...

It's usually a solenoid, a cylindrical coil of wire inside of which the sample is placed. The NMR signal is strongest when a sample takes up most of the space available inside the cylinder.

NMR, along with X-ray crystallography, is commonly used to determine the structure of proteins and other molecules. NMR probes normally consist of a coil that surrounds the sample being studied.

[Andy]’s NMR setup couldn’t be simpler. It consists of a coil of enameled copper wire wound on a 40 mm PVC tube and a simple control box with nothing more than a switch and a couple of capacitors.

A new way of machining microscale rotors from diamond crystal can enable ultrasensitive NMR devices for probing proteins and other materials.

NMR Shakes Off Its Coil: A New Technique For High-Resolution NMR Spectroscopy Outside The Magnet Date: July 9, 2001 Source: Lawrence Berkeley National Laboratory Summary: Researchers in the ...