Simultaneous1H and19F Stray-Field Imaging in Solids and Liquids*

The cross-polarization dynamics between 1 H and 19 F in a Viton-type fluoroelastomer were studied using 19 F magic angle spinning (MAS) and 1 H ! 19 F cross-polarization (CP)/MAS NMR at 188.29 MHz. The phenomenological theory of spin thermodynamics based on the spin temperature hypothesis was employ

Indirect nuclear Overhauser enhancements through 19F have been determined for the three-spin systems 'H-I9F-'H and 1H-'9F-'3C by steady-state presaturation of the appropriate proton, and applied to the conformational analysis of 5-bromo-2-fluoro-4-nitroacetanilide. The 'H NOE difference spectra at 4

## Abstract To allow for single‐crystal nuclear magnetic resonance (scNMR) investigations, an existing narrow bore high‐field double‐resonance millicoil ^19^F and ^1^H solid‐state NMR probe was modified by adding a goniometer stage to the top. The goniometer was kept outside of the radiofrequency (

## Abstract The changes in the conformation and molecular mobility accompanied by a phase transition in the crystalline domain were analyzed for ethylene (E) and tetrafluoroethylene (TFE) copolymer, ETFE, using variable‐temperature (VT) solid‐state ^19^F magic angle spinning (MAS) and ^1^H → ^19^F