The Application of "Spin Pinging" to Direct and Long-Range Proton-Detected Heteronuclear Correlation

A series of highly substituted biphenyls and rn-quaterphenyls have been synthesized and carbon and proton NMR spectra have been assigned by a combination of 1D and 2D techniques. The XCORFE variation of the long range heteronuclear correlation experiment was found to be particularly valuable in maki

## Abstract Recent work has shown that broadband heteronuclear Hartmann—Hahn coherence transfer is an efficient alternative to pulsed coherence transfer methods. A new technique for heteronuclear long‐range correlation between ^13^C and protons, making use of proton detection and an extended mixing

Assignment of the congested proton and carbon NMR spectra of heterocyclic benzo [b]triphenyleno[ 1,f-djthiophene was accomplished through the concerted application of several two-dimensional NMR experiments. The inherent insensitivity of homonuclear zero quantum coherence to magnetic field inhomogen

Of the two most frequently used experiments for heteronuclear long-range correlations, COLOC (1) and HMBC (2), the HMBC experiment is more sensitive because it detects proton rather than carbon magnetization. As a draw-H 1y ## D-90Њ( 13 C)t-D-180Њ(

A new method for measuring and assigning long-range 1 H-13 C coupling constants, and the difficulty of deducing which 1 H spin coupling constants is presented. This is based on the HSQC nuclei are coupled to a given 13 C nucleus without extensive pulse sequence with substitution of the 180Њ 1 H puls

## Abstract The solution structures of the two all‐__cis__ stereoisomers of [IrH~2~(COD)((−)‐chiraphos)](CF~3~SO~3~) and the four all‐__cis__ stereoisomers of [IrH~2~(COD)((−)‐norphos)](CF~3~SO~3~) [COD = cycloocta‐1,5‐diene, (−)‐chiraphos = 2__S__,3__S__‐bis(diphenyl‐ phosphino)butane, (−)‐norphos