Long-range tin-tin coupling constants: II. Two-bond coupling via carbon

Multinuclear NMR data ('H, 13C, '19Sn) have been obtained for almost all possible isomers of the composition Me3Sn(C3H,)SnMe3 ( m = 2,4,6) and Me3Sn(C,H,)SnMe3 (n = 0,2,4,6,8). The coupling constants xJ(Sn, Sn) (x =4,5) are not linearly related to the corresponding coupling constants "J(H, H), but a

## Abstract Long‐range proton‐carbon coupling constants, __^n^J__~CH~, were measured for some simple norbornene derivatives. Among the influence of substitution pattern, a study of the experimental influence of the double bond in the norbornene skeleton on ^2^__J__~CH~ and ^3^__J__~CH~ was made, ta

## Abstract A 1D pulse sequence designed for the selective detection of carbon–carbon connectivities and the measurement of the corresponding coupling constants is presented. The sequence takes advantage of the increased sensitivity and the higher accuracy obtained with multiselective excitation an

## Abstract The ^1^__J__(SnC)s in the tin–carbon double‐bond systems were determined for the first time. These results were supported by theoretical calculations, showing the high s‐character of the SnC double bonds. The new findings obtained will be of great use in the development of tin‐contain

We propose the 13 C-detecting 1D DEPT long-range C-C relay to detect super long-range H-C connectivity via four bonds ( 1 H-13 C-X-X-13 C, X represents 12 C or heteronuclear). It is derived from the DEPT C-C relay which detects the H-C correlations via two bonds ( 1 H-13 C-13 C) by setting the delay