Few techniques are as versatile or as powerful as Nuclear Magnetic Resonance (NMR) spectroscopy. First detailed in 1938, with the first identifiable instruments constructed in the mid-1940s, NMR ...

NMR makes use of specific stable isotopes, commonly 13 C, but there is only one NMR-active stable isotope for oxygen, 17 O. The effects of using this oxygen isotope over other isotopes include lower ...

In a significant advancement for lab-on-chip technology, IBEC researchers in the frame of the European project BLOC, have demonstrated the first integration of a benchtop nuclear magnetic resonance ...

NMR spectroscopy is an analytical technique commonly used in academia and industry, and is a critical part of today’s food, chemistry, biochemistry, and pharmaceuticals research. NMR facilitates the ...

NMR spectroscopy is a powerful technique that is ideally suited to the characterization and analysis of a diverse array of chemical compounds. Unlike many other analytical techniques, NMR spectroscopy ...

It’s an open secret that organic chemistry students struggle to learn a skill that is integral to the field: interpreting nuclear magnetic resonance spectra. Organic chemists use this important tool ...

Therapeutic antibodies are among the most widely used biologic medicines, yet detecting subtle structural differences in these complex proteins remains challenging. Researchers in Japan have ...

Resonance” is right there in the name of nuclear magnetic resonance spectroscopy, but the technique doesn’t make most chemists think of music. Ayyalusamy Ramamoorthy, a biophysical chemist at the ...

Improving electrochemical energy storage is one of the major challenges the scientific community faces today. The search for new battery materials and technologies, however, together with the drive to ...