Coupling of geminal protons in nuclear magnetic resonance

## Abstract The increased separation efficiency afforded by reducing the size of the separation column has resulted in ‘microseparations’ becoming an important component in many chemical and biochemical applications. The coupling of microseparations with NMR detection is an area of increasing inter

## Abstract The hyphenation of enantioselective capillary gas chromatography and mass spectrometry is not always sufficient to distinguish between structural isomers, thus requiring peak identification by NMR spectroscopy. Here the first online coupling of enantioselective capillary gas chromatogra

Magnetic resonance measurements, including nuclear magnetic resonance T 1 and T 1 and electron paramagnetic resonance T 1e and T 2e relaxation times are presented for polyanilines prepared according to a modification of the conventional synthesis and doping methods, showing a conductivity higher tha

The nuclear magnetic resonance lineshape of the protons in the amphiphik afkyl chains in tameliar liquid crystals is calculated. It is found that the inclusion of intramolecular dipoIar interactions not averaged to zero explains the shape of the experimentally observed spectrum.

Using the pulsed nuclear magnetic resonance (NMR) spectroscopy, the spin-lattice (TI) and the spin-spin (T,) relaxations times of water protons from samples of pectoralis major muscles of normal (line 412) and homozygous dystrophic (line 413) chickens were measured. Both the TI and T, were significa