Double-quantum filtered volume-selective NMR spectroscopy

A carbon-13 magic angle spinning double-quantum filtered dipolar shift correlation NMR experiment which can be used to establish through-space connectivities in solids is analyzed. The main advantage of the double-quantum filtered approach is the removal of intensity arising from natural abundance b

In this study we address the question of quantification of muscle lactate using double quantum filtered (DQF) 1 H NMR spectroscopy where dipolar and scalar coupled spectra are acquired. For this, lactate content in muscle samples was independently determined using a conventional enzymatic assay and

The possibility of exciting and detecting proton NMR double-quantum coherences in inhomogeneous static and radiofrequency magnetic fields was investigated. For this purpose specialized pulse sequences which partially refocus the strongly inhomogeneous evolution of the spin system and generate double

## Abstract We propose and demonstrate a 1D pulse sequence to convert double quantum coherence (DQC) of __y__ phase with optimal efficiency, relying on single transition selection. Our sequence has a larger high‐sensitivity bandwidth with respect to the coupling, compared to other reconversion stra