Magic angle spinning (MAS) nuclear magnetic resonance (NMR) has evolved significantly
over the past three decades and established itself as a vital tool for the structural analysis of …

Floquet theory is an elegant mathematical formalism originally developed to solve time-
dependent differential equations. Besides other fields, it has found applications in optical …

Inspired by the recently proposed transverse mixing optimal control pulses (TROP)
approach for improving signal in multidimensional magic-angle spinning (MAS) NMR …

Cross polarization (CP) transfers via Hartmann-Hahn matching conditions are one of the
cornerstones of solid-state magic-angle spinning NMR experiments. Here we investigate a …

A cross-polarization-based 2 H-1 H isotope correlation spectroscopy (CP-iCOSY) approach
is presented for characterizing deuterated amino acids, pharmaceutical compounds and a …

In magic angle spinning (MAS) experiments involving uniformly 13 C/15 N labeled proteins,
13 C–13 C and 13 C–15 N dipolar recoupling experiments are now routinely used to …

We present a general theoretical description that allows us to describe the influence of
isotropic chemical shift in homonuclear and heteronuclear dipolar recoupling experiments in …

We introduce a pulsed third-spin-assisted recoupling experiment that produces high-
intensity long-range 15N–13C cross peaks using low radiofrequency (rf) energy. This Proton …

We propose a robust band-selective heteronuclear 15 N-13 C recoupling method using dual
back-to-back (BABA) pulses (DBP). It contains four 90° pulses in each rotor period and …

In this letter, we propose a robust heteronuclear dipolar recoupling method for proteins in
magic-angle spinning (MAS) solid-state NMR. This method is as simple, robust and efficient …