23Na-NMR Relaxation in Systems of Latex and an Ionic Surfactant

Spin relaxation and chemical shifts by lanthanide chelate complexes are used to distinguish 23Na signals in a simulated two-compartment model. Both effects are significant in EDTA, DTPA, and TPP complexes of Gd and in the TPP complex of Dy. The simultaneous measurement of these properties is illustr

1 H relaxation and pulsed-gradient NMR techniques have been used to probe solvent mobility and binding in aqueous suspensions of Laponite, a synthetic Hectorite clay. The ionic strength and the particle concentration were varied in wide ranges in order to explore the phase diagram. Increasing either

Sodium in most biological systems relaxes biexponentially and nentially with fast (R in 2 f and R ex 2 f ) and slow (R in 2s and R ex 2s ) generates a multiple-quantum signal. In a multiple-quantum filtransverse relaxation rates, respectively (4-7). Thus, both tering sequence, the sodium contributin

## Abstract Each of six perfused rat hearts was subjected to 30 min of hypoxia followed by 60 min of reoxygenation. Inversion‐recovery data on the intracellular Na NMR signal, differentiated by a shift reagent, 6 m__M__ Dy(PPP)~2~, were obtained every 5 min, and __T__~1~ values were calculated. The

The theory of pulsed field gradient (pfg) NMR applied to molecules in cellular systems which contain different subcellular compartments separated by permeable membranes, acting as diffusion barriers, has been extended. A numerical model of restricted diffusion and magnetization relaxation behavior i

A facile synthesis of functionalized poly[3(4)-methylstyrene] (PMS) latex particles containing aldehyde and carboxylic acid groups was achieved via an emulsion polymerization of 3(4)-methylstyrene in the presence of sodium dodecyl sulfonate, followed by an in-situ oxidation catalyzed by copper(II) c