The NMR spectra of the porphyrins: 23—Metalloporphyrins as diamagnetic shift reagents, chemical applications

## Abstract The nature of the metalloporphyrin‐ligand complexes produced by zinc, magnesium and cobalt porphyrins with basic ligands has been investigated using the diamagnetic ring current shifts of the porphyrin on the ligand protons. The metal to nitrogen bond lengths in some metallo‐__meso__‐te

## Abstract The facile preparation of zinc(II) __meso__‐tetraphenylporphyrin (Zn TPP) and derivatives from substituted benzaldehydes and pyrrole, combined with the calculation of ring current shifts in these molecules, provides a useful series of selective diamagnetic shift reagents. The porphyrin‐

## Abstract A novel NMR shift reagent, cobalt(III) __meso__‐tetraphenylporphyrin (CoTPP) was used to determine the conformations of azacycloheptane and azacyclooctane ligands complexed to the metalloporphyrin. Using the observed ring current shifts and a previously calibrated ring current model, th

The 'H and I3C NMR spectra of piperidine and eight monosubstituted piperidines and their spectra with cobalt(II1) mesotetraphenylporphyrin chloride (CoTPPCl) and cobalt(II1) octaethylporphyrin chloride (CoOEPCl) were assigned using a range of NMR techniques. When complexed to the porphyrin shift rea

## Abstract We have developed an NMR chemical shift prediction system that enables high throughput automatic grading of NMR spectra. In support of high throughput synthetic efforts for our drug discovery program, a rapid and accurate analysis for identity was needed. The system was designed and imp

## Abstract A method is suggested whereby the shifted extracellular triple quantum filtered ^23^Na signal of an isolated organ is completely eliminated. The method is based on the long relaxation time of the triple quantum coherence and on its fast evolution rate. When the carrier frequency is set