Welcome to Nanalysis’ benchtop NMR Blog

We love benchtop NMR! In this blog section, you will find all things benchtop NMR. Please contact us if you would like to discuss about your project.

Educational Alexander Köring Educational Alexander Köring

Unsymmetric Carbon Satellites in Fluorine-19 NMR

In the 19F NMR spectrum of DCBTF, we can observe the singlet resonance of the trifluoromethyl fragment at δ = −63.07 ppm. While it might not jump into your eye at first glance, please note that the carbon satellites are not centered at the "main signal", which is what we are used to from 1H NMR spectra. Read more

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Educational Thais Barbosa Educational Thais Barbosa

Part 1 - T1 relaxation: definition, measurement and practical implications!

Nuclear Magnetic Resonance spectroscopy is based on the idea that some nuclei can behave as little magnetic bars (I spin number ≠ 0). In the presence of a magnetic field (B0) the nuclear spins feel a small torque for or against the B0 axis, which results in a net magnetization along the B0 direction. Benchtop NMR 1-855-NMREADY (667-3239) toll-free in the US and Canada.

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Educational Paul Hui Educational Paul Hui

What to expect from the tert-butanol 1D and 2D 13C NMR analysis?

Proton and carbon NMR analyses are routinely used in organic laboratories. In proton, 1H-1H coupling pattern is well exploited, and 1H-13C couplings as referred to as the carbon satellites. However, when acquiring carbon data, proton decoupling is applied most of the time and consequently it is not common to evaluate 1H-13C couplings in routine carbon analysis. This blog discusses the 1H-13C coupling in tert-butanol through 1D and 2D data, highlighting the key info. Read more.

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Educational Godfrey Wills Educational Godfrey Wills

Using NMR to observe the restricted rotation in amide bonds

NMR is a great tool for the analysis of molecular properties such as the amide bond, which has a restricted rotation around the C–N bond. In Biochemistry, the amide bond is referred to as the peptide bond. This bond is formed by the union of a carboxyl group of one amino acid with the amino group of another amino acid. Read more.

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Educational Susie Riegel Educational Susie Riegel

DEPT: A tool for 13C peak assignments

Distortionless Enhancement by Polarization Transfer (DEPT) is a double resonance pulse program that transfers polarization from an excited nucleus to another – most commonly 1H → 13C. This results in a sensitivity enhancement relative to the standard decoupled 1D carbon spectra (13C), which benefits only from the small Nuclear Overhauser Effect (NOE) enhancements.

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Educational Alexander Köring Educational Alexander Köring

Labile Protons and J-Coupling

Have you ever questioned why hydroxyl groups/alcohol signals appear as singlet in the 1H NMR spectrum? Shouldn’t they also couple with neighboring hydrogen atoms and show the corresponding splitting pattern? Yes…no…why? Don’t worry! We’ll get to the bottom of it and discuss how exchange rates, concentrations, and the presence of water affect the NMR spectra of ethanol in CDCl3. Benchtop NMR solves so many questions – feel free to reach out to us to make sure yours can answered too.

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