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 ...

For the majority of users conducting nuclear magnetic resonance (NMR) spectroscopy today, sample preparation follows a similar path: isolate a compound or compounds from a reaction mixture (or if ...

Structural genomics involves the determination, analysis, and dissemination of the three-dimensional structures of all protein and RNA molecules in nature, providing new opportunities at the interface ...

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 ...

NMR spectroscopy can be used to elucidate structures, quantify target compounds and enable synthesis reaction monitoring in real time. It is possible to easily integrate benchtop NMR instruments into ...

A team of researchers has demonstrated that benchtop spectrometers are capable of analyzing pyrolysis bio-oils just as well as far more expensive, high-field spectrometers. A team of researchers at ...

Quantum sensors based on nitrogen-vacancy (NV) centers in diamond are a promising detection mode for nuclear magnetic resonance spectroscopy due to their micron-scale detection volume and noninductive ...

Have your data emailed to you when the acquisition is completed! Use this instrument for 1H, 19F, 19F{1H}, 13C, 11B, 31P, 29Si, 195Pt, or practically any "X" nucleus with automatic probe-tuning. This ...

A pair of grants from the Offices of the Provost and the Dean for Research (DfR) will transform materials science, synthesis, catalysis and chemical biology research across campus through the ...