Nuclear Magnetic Resonance (NMR) and Density Functional Theory (DFT) are powerful analytical tools widely used in chemical analysis to study molecular structures and dynamics. NMR provides ...

Beta-detected nuclear magnetic resonance (β-NMR) spectroscopy is an advanced analytical technique that combines the principles of nuclear magnetic resonance (NMR) with the detection of beta ...

Groundbreaking research involving nuclear magnetic resonance has revealed the secrets of ancient Roman wooden structures. This non-invasive technique helped scientists analyze submerged wood from a ...

This NMR spectrometer is ultrasensitive and equipped with four channels with gradients and has the capability of analyzing liquid samples. “TCI Cryo Probe is a proton-optimized triple resonance NMR ...

This NMR Facility has capabilities for solution-state, solid-state, gaseous-state, rheo, diffusion, and MRI (magnetic resonance imaging). A short introduction to NMR spectroscopy can be found here.

Equipped with 600 MHz and 700MHz spectrometers equipped with a salt-tolerant 13C-enhanced triple resonance cryo-probe, a 1H,13C capillary flow probe and liquid handling robot and a 1.7mm ...

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 ...

The CU Boulder Biochemistry Nuclear Magnetic Resonance (NMR) facility located in JSCBB serves the research needs of the entire campus community as well as outside research entities, both public and ...

Use precise geolocation data and actively scan device characteristics for identification. This is done to store and access ...

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 ...

"Discover how Bruker’s Fourier PAT enables high-fidelity process control and optimization for industrial applications.