13C–13C Chemical Shift Correlation in Rotating Solids without 1H Decoupling During Mixing

A pulse sequence for obtaining 13C-lH shift-correlated spectra with full 'H-'H decoupling b described and evaluated. It is concluded that the sequence provides excellent resolution, even for strongly coupled methylene group The sensitivity is superior to those of existing sequences based on "C detec

A simple method for obtaining 1 H-13 C HETCOR solid-state NMR spectra reflecting only medium-and long-range 1 H-13 C correlation peaks is presented. By dephasing the magnetization of protons directly bonded to a 13 C nucleus, the short-range correlation peaks, which contain limited structural inform

The sensitivity limits for 13C-detected 13C-1H shift correlation sequences were evaluated using a microprobe in combination with 3 mm microtubes Ðtted with susceptibility plugs which allow for further restriction of the sample volume. For an absolute value BIRD-decoupled HETCOR spectrum acquired in

Triple-resonance experiments capable of correlating directly bonded and proximate carbon and nitrogen backbone sites of uniformly 13 C-and 15 N-labeled peptides in stationary oriented samples are described. The pulse sequences integrate cross-polarization from 1 H to 13 C and from 13 C to 15 N with

A new 2D solid-state CP/MAS 13 C NMR exchange experiment for through-space isotropic chemical shift correlation is proposed and demonstrated. Through-space correlation is established via a second cross polarization from 13 C to 1 H and subsequent 1 H spin diffusion. A third cross polarization result

Principal values of the 13C chemical shift tensor were obtained for the 15 carbons of solid caryophyllene oxide using an improved PHORMAT NMR analysis. The improvements include TIGER processing and improved proton decoupling. TIGER is an alternative to Fourier methods and shortens 2D data collection