Add to ORKGModern solid-state NMR employs a range of rf pulse sequences for a variety of tasks. There are decoupling sequences which reinforce the averaging effect of the magic-angle rotation, causing different spin species to evolve approximately independently of each other. There are also recoupling sequences which undo the averaging effect of th
We explore the effects of symmetry on the performance of phase-modulated homonuclear dipolar decoupl...
We compare the performance of the windowed phase-modulated Lee-Goldburg (wPMLG) and the windowed dec...
We demonstrate a new set of methods for transferring spin polarization between different nuclear iso...
The symmetry principles of NMR pulse-sequence design are summarized. The discussion is guided by an ...
We present some applications of solid–state nuclear magnetic resonance to model compounds and biolog...
General symmetry principles for rotor-synchronized pulse sequences in magic-angle spinning solid-sta...
This thesis deals with the development of new methodology for homonuclear dipolar recoupling by symm...
This thesis concerns the development of radio-frequency pulse sequences in magic-angle-spinning soli...
The paper studies a family of recoupling pulse sequences in magic angle spinning (MAS) solid state N...
We demonstrate new rotor synchronised pulse sequences for obtaining high-resolution H-1 NMR spectra ...
We introduce a family of solid-state NMR pulse sequences that generalizes the concept of second aver...
Solid-state magic-angle-spinning NMR pulse sequences which implement zero-quantum homonuclear dipola...
Solid-state NMR is a powerful tool for the study of the structural and dynamic properties of materi...
Coupled pairs of spin-1/2 nuclei support one singlet state and three triplet states. In many circums...
We present the theoretical principles of supercycled symmetry-based recoupling sequences in solid-st...
We explore the effects of symmetry on the performance of phase-modulated homonuclear dipolar decoupl...
We compare the performance of the windowed phase-modulated Lee-Goldburg (wPMLG) and the windowed dec...
We demonstrate a new set of methods for transferring spin polarization between different nuclear iso...
The symmetry principles of NMR pulse-sequence design are summarized. The discussion is guided by an ...
We present some applications of solid–state nuclear magnetic resonance to model compounds and biolog...
General symmetry principles for rotor-synchronized pulse sequences in magic-angle spinning solid-sta...
This thesis deals with the development of new methodology for homonuclear dipolar recoupling by symm...
This thesis concerns the development of radio-frequency pulse sequences in magic-angle-spinning soli...
The paper studies a family of recoupling pulse sequences in magic angle spinning (MAS) solid state N...
We demonstrate new rotor synchronised pulse sequences for obtaining high-resolution H-1 NMR spectra ...
We introduce a family of solid-state NMR pulse sequences that generalizes the concept of second aver...
Solid-state magic-angle-spinning NMR pulse sequences which implement zero-quantum homonuclear dipola...
Solid-state NMR is a powerful tool for the study of the structural and dynamic properties of materi...
Coupled pairs of spin-1/2 nuclei support one singlet state and three triplet states. In many circums...
We present the theoretical principles of supercycled symmetry-based recoupling sequences in solid-st...
We explore the effects of symmetry on the performance of phase-modulated homonuclear dipolar decoupl...
We compare the performance of the windowed phase-modulated Lee-Goldburg (wPMLG) and the windowed dec...
We demonstrate a new set of methods for transferring spin polarization between different nuclear iso...