Pure shift nuclear magnetic resonance (NMR) spectroscopy provides ultrahigh-resolution access to valuable structural and dynamic information with significantly improved spectral resolution and plays ...

A new palladium-loaded amorphous InGaZnOx (a-IGZO) catalyst achieved over 91% selectivity when converting carbon dioxide to ...

Studies on the NMR methodology for characterizing the structure of polymers and biopolymers based on the understanding of the NMR chemical shift/structure correlation using solution-state and ...

The facility houses three high-field NMR spectrometers (500, 600 and 700MHz) to characterize and study atomic-level structures, dynamics and interactions of molecules (including biomacromolecules) in ...

This article explores the chemical shifts and coupling constants in low-field NMR spectroscopy.

The Ohio State University has the first 1.2 GHz NMR in the United States, a milestone in advancing US life science and materials research infrastructure, with leadership and funding by the ...

The Ohio State University has the first 1.2 GHz NMR in the United States, a milestone in advancing US life science and materials research infrastructure, with leadership and funding by the National ...

Bruker Corporation announced the successful installation of a 1.2 Gigahertz NMR system at the National Gateway Ultrahigh Field NMR Center at The Ohio State University. Novel GHz-class NMR systems are ...

Chemical shift transfer (CST) is a well-established technique in NMR spectroscopy that utilizes the chemical shift assignment of one protein (source) to identify chemical shifts of another (target).

Pure shift techniques, as one of the rapidly developing frontiers in nuclear magnetic resonance (NMR) fields, can significantly enhance the resolution of NMR spectrum with a removal of splittings ...