119SN-NMR Spectra of triphenyltin compounds

## Abstract ^119^Sn NMR data are reported for organotin compounds containing potentially C,N‐chelating ligands capable of forming five‐ or six‐membered chelate rings. The ^119^Sn chemical shifts of divalent organotin compounds containing such a ligand are found at relatively high frequency. Intramo

## Abstract The application of a non‐refocusing INEPT pulse sequence in ^119^Sn NMR spectroscopy allows the determination of ^n^__J__(^119^Sn, ^1^H) values by comparison of the observed patterns with calculated spectra. It gives an easy access to ^n^__J__(^119^Sn, ^1^H) values in butyltin derivativ

## Abstract Extremely broad ^119^Sn resonances, as the result of ^1^__J__(^119^Sn,^11^B) scalar coupling, were readily detected, even for diluted samples (5 mg in 0.5 ml of C~6~D~6~), via inverse two‐dimensional ^1^H{^119^Sn} NMR experiments. Two bis(amino)trimethylstannylboranes and four dialkylam

The 119Sn magic angle spinning NMR spectra of the three tin sulÐdes SnS, and are discussed with SnS 2 Sn 2 S 3 respect to results from x-ray structure analysis. The distortion from an octahedral environment of tin in SnS and Sn(II) in is reÑected in the large chemical shift anisotropy. The denser co