Nuclear Magnetic Resonance (NMR) was first experimentally observed in late 1945, nearly simultaneously by the research groups of Felix Bloch, at Stanford University and Edward Purcell at Harvard ...

These include a range of NMR machines, including a state of the art 700 MHz spectrometer equipped with a 1.7mm cryoprobe for extreme sensitivity. This is located in the NMR facility in Chemistry, ...

Equipped with 600 MHz and 700MHz spectrometers equipped with a salt-tolerant 13C-enhanced triple resonance cryo-probe, a 1H ... comprising 500MHz and 600MHz ultra-high throughput NMR systems including ...

NMR spectroscopy is among the most powerful analytical techniques for the elucidation of chemical structure. It has the capability of providing detailed information about structure and dynamics of ...

The Nuclear Magnetic Resonance Core supports MSK researchers by providing essential analytical services, access and education for analytical instrumentation and related shared scientific resources.

The Nuclear Magnetic Resonance Spectroscopy Lab features a state-of-the-art JEOL 400 MHz NMR equipped with auto sampling and automatic tuning & matching. The instrument can perform temperature and ...

Nuclear magnetic resonance (NMR) is ubiquitous in chemistry and materials science. One of the reasons for its widespread popularity is because NMR is able to provide valuable information on the ...

Nuclear Magnetic Resonance (NMR) spectroscopy is a useful tool for exploring various domains across the natural sciences. NMR is well-suited to the analysis of molecular properties, such as the ...

Bruker d-DNP polarizer shown (center) at UCSF, between Bruker 9.4T MRI (far left) and Fourier 80 NMR (right of polarizer). The novel d-DNP system enables >10,000x signal gains on 13C in high-field ...