News and Updates

Bringing NMR to the Battery Lab Practical Electrolyte Analysis with Benchtop NMR Systems Lithium‑ion batteries (LIBs) have become indispensable in modern portable electronics and are now central to the rapid expansion of electric mobility and advanced energy storage systems. Their performance, safety, and longevity depend strongly on the chemical composition and stability of the liquid electrolyte, which …

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Long-Range 1H-31P HSQC for selecting one bond and multiple bond correlations Since its introduction in the 1980s, heteronuclear two-dimensional (2D) correlation NMR spectroscopy has become an indispensable tool for organic chemists, serving as a cornerstone technique for the structural elucidation of a wide range of compounds [1]. Most 2D heteronuclear correlation experiments are based on …

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Monitoring Chemical Reactions Performed at Temperatures up to 60 °C by NMR NMR is an invaluable tool for real-time monitoring of chemical reactions, with capabilities including but not limited to the measurement of percent conversion, kinetic studies, side product formation, and global reaction optimization1,2,3,4. Driven by a collaborative project between Magritek and process chemists from …

Monitoring Chemical Reactions Performed at Temperatures up to 60 °C by NMR Read More »

Benchtop NMR Coupling to Liquid ChromatographyChemically-selective detection in Size Exclusion Chromatography Reaction Size Exclusion Chromatography (SEC) is one of the most widely used techniques for polymer analysis. It reliably provides molar mass distributions and supports quality control, research, and industrial formulation work. However, when it comes to complex polymer systems—such as blends, block copolymers, structural …

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Simultaneous Dual-Phase Reaction Monitoring by Benchtop NMRReal-Time Kinetic Analysis of a Biphasic Suzuki–Miyaura Coupling Reaction Introduction In the past decade, benchtop nuclear magnetic resonance (NMR) spectroscopy has become a well-established tool for on-line reaction monitoring. The compact size and low weight of these spectrometers provide the mobility required to install them directly inside a fume …

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“Dopamine Rush” – The Story of Exchange Dopamine is the main neurotransmitter involved in the pathway that regulates reward-motivated behavior [1]. The rewarding feeling that we experience when spending quality time with our loved ones, or acquiring a perfectly resolved NMR spectrum, comes from the increased dopamine level. This in turn motivates us to repeat …

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Multinuclear NMR Analysis of a Reducing Agent Boron compounds are used in a variety of fields including but not limited to organic chemistry, pharmaceuticals, agriculture, ceramics, fire retardancy, biocides, and nuclear energy. Common techniques to analyze boron-containing compounds include inductively coupled plasma mass spectrometry (ICP-MS) and colorimetric methods. Although ICP-MS is known for its sensitivity …

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A Multidimensional Approach for 1H-11B Correlation NMR Spectroscopy Boron is increasingly recognized for its medicinal applications [1]. Over the past two decades, significant advancements in boron organic chemistry have led to a profound impact on drug design and development [1]. These advancements have facilitated the incorporation of boron-containing functional groups into pharmaceuticals, enhancing their accessibility …

11B Benchtop NMR Spectroscopy No Longer BORing Read More »

Utilizing PGSTE diffusion measurements for molecular weight determination by benchtop NMR In a previous application note, we discussed how the molecular weight of two PDMS polymers can be measured via end-group analysis in 1D ²⁹Si-NMR. Building on that discussion, this study focuses on the use of diffusion NMR spectroscopy to determine the molecular weight of …

Rapid molecular weight determination of Polydimethylsiloxanes (PDMS) Read More »

Reduce the quantification time of 13C 1000 times by including polarization transfer and indirect detection. The most common approach to quantifying materials by NMR utilizes 1H NMR spectra, which combines high intrinsic sensitivity with straightforward, inherently quantitative signal integrals. In complex formulations and reaction mixtures, however, 1H spectra often suffer from peak overlap, which limits …

q-HSQC for Sensitivity-Enhanced 13C Quantitation Read More »