Natural abundance 15N NMR spectroscopy of silicon—nitrogen and tin—nitrogen compounds

## Abstract The small negative magnetogyric ratio (γ) of the ^15^N nucleus decreases the efficiency of ^15^N^1^H dipole‐dipole relaxation to about 25% of that for an analogous ^13^C nucleus. This may lead to greater competition from other relaxation mechanisms in ^15^N n.m.r. and consequent partia

Nitrogen-15 NMR spectra of the complexes and ] , each containing 15N at natural abundance, were obtained by indirect detection (HMQC) using phosphorus as the observed nucleus. Data collection times varied from 4 h to 4 d depending upon the accuracy of the estimated value of 2J(31P,15N) used to opti

## Abstract Two series of small generation dendrimers built with phosphorus atoms at each branching point and various types of nitrogen atoms at natural abundance of ^15^N within the branches are characterized by a gradient enhanced GHNMQC (gradient hydrogen–nitrogen multiple quantum coherence) ^1^

Natural abundance "N CP-MAS NMR spectra of copper(1) complexes and their ligands, [Cu(biL),]PF, [ biL = l,l&pbenanthroline (phen) and 2,~imethyl-l,l&phenanthroliae (Z,PMe,phen)l, were measured. Coordination shifts of -45 and -44 (average) ppm were obtained for phen and Z,PMe,phen, respectively, whic