Nuclear magnetic resonance correlation

Liao. M.-Y. Harbison, G.S. Two-dimensional nuclear magnetic resonance correlation spectroscopy at zero field. J. Chem. Phys. 1999. 111. 3077-3082. 

CutiUo A, Goodrich K, Krishnamurthy G et al. Lung water measurement by nuclear magnetic resonance correlation with morphometry. J Appl Physiol 1995 79 2163-2168. 

Woessner D E 1996 Brownian motion and correlation times Encyclopedia of Nuclear Magnetic Resonance ed D M Grant and R K Harris (Chichester Wiley) pp 1068-84... 

When simple Hquids like naphtha are cracked, it may be possible to determine the feed components by gas chromatography combined with mass spectrometry (gc/ms) (30). However, when gas oil is cracked, complete analysis of the feed may not be possible. Therefore, some simple definitions are used to characterize the feed. When available, paraffins, olefins, naphthenes, and aromatics (PONA) content serves as a key property. When PONA is not available, the Bureau of Mines Correlation Index (BMCI) is used. Other properties like specific gravity, ASTM distillation, viscosity, refractive index. Conradson Carbon, and Bromine Number are also used to characterize the feed. In recent years even nuclear magnetic resonance spectroscopy has been... 

Nuclear Magnetic Resonance Spectra. The CNMR spectra of quinoxaline and a dozen 5-substituted quinoxalines have been determined for comparison with those of corresponding naphthalene derivatives. Aspects of the H, and NMR spectra of quinoxaline and related heterocycles have been correlated with the 7i-electron densities of the system." In contrast with the... 

As active substances are separated and purified they are characterized by a combination of spectroscopic analyses and chemical correlations. Particularly useful spectroscopic analysis techniques are nuclear magnetic resonance (proton and carbon), mass spectrometry and Infra-red and ultraviolet spectrophotometry. 

There are several systematic nuclear magnetic resonance studies of the interaction between the substituents and the protons and ring atoms of five-membered heterocycles. In some 2-substituted furans, thiophenes, selenophenes, and tellurophenes there is a linear correlation between the electronegativity of the chalcogen and several of the NMR parameters.28 As there also is a good correlation between the shifts of the corresponding protons and carbons in the four heterocycles, the shifts of unknown selenophene and tellurophene derivatives can be predicted when those of thiophene are known. This is of special interest for the tellurophene derivatives, since they are difficult to synthesize. In the selenophene series, where a representative set of substituents can be introduced in the 2- as well as in the 3-position, the correlation between the H and 13C shifts and the reactivity parameters according to Swain and Lupton s two-parameter equation... 

Crosslinked polymer networks formed from multifunctional acrylates are completely insoluble. Consequently, solid-state nuclear magnetic resonance (NMR) spectroscopy becomes an attractive method to determine the degree of crosslinking of such polymers (1-4). Solid-state NMR spectroscopy has been used to study the homopolymerization kinetics of various diacrylates and to distinguish between constrained and unconstrained, or unreacted double bonds in polymers (5,6). Solid-state NMR techniques can also be used to determine the domain sizes of different polymer phases and to determine the presence of microgels within a poly multiacrylate sample (7). The results of solid-state NMR experiments have also been correlated to dynamic mechanical analysis measurements of the glass transition (1,8,9) of various polydiacrylates. 

Nuclear magnetic resonance (NMR) experiments are used to study the exchange kinetics of chemical systems in equilibrium.28,68,69 As is the case for fluorescence correlation spectroscopy no perturbation of the chemical system in equilibrium is required to obtain kinetic information from NMR experiments. However, NMR is not very sensitive to concentration changes. 

Finally, the array of modern LMs, including nuclear magnetic resonance, confocal laser, dark-field, phase-contrast fluorescence (Chapter 1), continues to be extended. The array offers the electron microsco-pist many opportunities for correlative LM and EM possibilities. 

He, Q., Richter, W., Vathyam, S. and Warren, W. S. Intermolecular multiple-quantum coherences and cross correlations in solution nuclear magnetic resonance, J.Chem.Phys., 98 (1993),6779-6800... 

Experimentally determined pA, values have been compared with Hammett substituent constants (Figure 1) and an excellent correlation was found. This result provided a further support - in accord with some nuclear magnetic resonance (NMR) measurements - for existence of one particular tautomeric form (Figure 1, structure a) among the three possible ones (Figure 1, a, b, c). 

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