Add to ORKGWe detail the uniform-sign cross-peak double-quantum-filtered correlation spectroscopy (UC2QF COSY) experiment, a new through-bond correlation method for disordered solids. This experiment is a refocused version of the popular double-quantum-filtered correlation spectroscopy experiment in liquids. Its key feature is that it provides in-phase and doubly absorptive line shapes, which renders it robust for chemical shift correlation in solids. Both theory and experiment point to distinct advantages of this protocol, which are illustrated by several experiments under challenging conditions, including fast magic-angle spinning (30kHz), anisotropic molecular motion, and (13)C correlation spectroscopy at the natural abundance isotope level
A new two-dimensional NMR carbon-proton chemical shift correlation experiment, the MAS-J-HMQC experi...
A double-zero quantum (DZQ)-refocused INADEQUATE experiment is introduced for J-based NMR correlatio...
We introduce a new experiment, which makes use of Spin State Selective manipulations to perform sens...
We detail the uniform-sign cross-peak double-quantum-filtered correlation spectroscopy (UC2QF COSY) ...
We present a novel nuclear magnetic resonance experiment for establishing through-bond connectivity ...
A routinely used assumption when interpreting two-dimensional NMR spectra obtained with a commonly u...
International audienceIndirect covariance NMR spectroscopy is demonstrated in solids, and we show th...
A new NMR experiment that exploits the advantages of proton double quantum (DQ) NMR through a proton...
The development of fast magic angle spinning (MAS) opened up an opportunity for the indirect detecti...
Resonance assignment is a pivotal step for any nuclear magnetic resonance (NMR) analysis, such as st...
International audienceResonance assignment is a pivotal step for any nuclear magnetic resonance (NMR...
The multiple-quantum pathway description developed earlier for two-dimensional single-quatum correla...
Recently, a method based on intermolecular multiple quantum coherences (iMQCs) has been proposed to ...
We show how high-resolution NMR spectra can be obtained for solids for which the spectra are normall...
International audienceVarious two-dimensional (2D) homonuclear correlation experiments have been pro...
A new two-dimensional NMR carbon-proton chemical shift correlation experiment, the MAS-J-HMQC experi...
A double-zero quantum (DZQ)-refocused INADEQUATE experiment is introduced for J-based NMR correlatio...
We introduce a new experiment, which makes use of Spin State Selective manipulations to perform sens...
We detail the uniform-sign cross-peak double-quantum-filtered correlation spectroscopy (UC2QF COSY) ...
We present a novel nuclear magnetic resonance experiment for establishing through-bond connectivity ...
A routinely used assumption when interpreting two-dimensional NMR spectra obtained with a commonly u...
International audienceIndirect covariance NMR spectroscopy is demonstrated in solids, and we show th...
A new NMR experiment that exploits the advantages of proton double quantum (DQ) NMR through a proton...
The development of fast magic angle spinning (MAS) opened up an opportunity for the indirect detecti...
Resonance assignment is a pivotal step for any nuclear magnetic resonance (NMR) analysis, such as st...
International audienceResonance assignment is a pivotal step for any nuclear magnetic resonance (NMR...
The multiple-quantum pathway description developed earlier for two-dimensional single-quatum correla...
Recently, a method based on intermolecular multiple quantum coherences (iMQCs) has been proposed to ...
We show how high-resolution NMR spectra can be obtained for solids for which the spectra are normall...
International audienceVarious two-dimensional (2D) homonuclear correlation experiments have been pro...
A new two-dimensional NMR carbon-proton chemical shift correlation experiment, the MAS-J-HMQC experi...
A double-zero quantum (DZQ)-refocused INADEQUATE experiment is introduced for J-based NMR correlatio...
We introduce a new experiment, which makes use of Spin State Selective manipulations to perform sens...