Magnetic resonance imaging - List of Manufacturers, Suppliers, Companies and Products

Magnetic resonance imaging Product List

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NMR device "No-Coolant FT-NMR"

NMR device "No-Coolant FT-NMR"

No need for liquid helium or liquid nitrogen! A permanent magnet NMR device that can be used for routine analysis such as quality control.

The "Cryogen-Free FT-NMR" from Japan Quantum Design is a permanent magnet type NMR operating at 60MHz/90MHz that does not require the costly operation of liquid helium or liquid nitrogen. The 60MHz model is a cryogen-free NMR that can be maintained without the need for filling liquid helium or liquid nitrogen, making it suitable for everyday analyses such as education, food quality control, and synthetic chemicals. The 90MHz model is the highest field model among cryogen-free magnets, providing the maximum sensitivity and resolution of this model. 【Features】 ■ No need for costly liquid helium or liquid nitrogen ■ Compatible with a wide range of nuclei from 31P to 29Si ■ Optimized for a wide homogeneous magnetic field and stability ■ Suitable for everyday analyses to advanced analyses *For more details, please refer to the PDF document or feel free to contact us.

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2D NMR DOSY method

2D NMR DOSY method

It is suitable for structural analysis of samples that can be analyzed without isolation and purification of the mixture, and for samples where structural changes occur due to pretreatment, making component fractionation difficult!

I would like to introduce the "2D NMR DOSY method." NMR is a useful technique for structural analysis of organic compounds. Typically, when analyzing the structure of each component in a mixed sample, each component is isolated and purified before analysis. In this method, spectral separation is possible by utilizing the differences in self-diffusion coefficients of each component in the mixture. 【Features】 ■ Effective for analyzing samples where physical separation or fractionation is difficult ■ Effective for analyzing samples where pre-treatment causes changes in chemical structure ■ Capable of separating multiple mixed spectra, making structural analysis of each component easier ■ Provides insights into the molecular mobility of each component in the mixture *For more details, please download the PDF or feel free to contact us.

  • Analysis and prediction system

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Analysis of Organic Materials by NMR and Its Sample Pretreatment, Data Interpretation

Analysis of Organic Materials by NMR and Its Sample Pretreatment, Data Interpretation

【Free trial available・Specialized books】★ Tips for obtaining beautiful spectra! Techniques for analyzing complex mixtures and trace components!

★ Points for interpreting the relationship between structure, physical properties, and spectra! A new analytical method using machine learning! ーーーーーーーーーーーーーーーーーーーーーーーー ■ Key Points of this Book ● Sample pretreatment and measurement condition setting ・Removal of impurities and insolubles, extraction and concentration of target substances from mixtures, uniformity of sample concentration ・Peak position shifts due to derivatization, high-sensitivity analysis of trace components ・Adjustment of NMR resolution, optimization of tuning ・Adjustment of flip angle, wait time, decoupling conditions, and CP conditions in solid-state NMR ・Improvement of S/N ratio through function processing ● Application Examples ・Molecular structure evaluation of polymer materials ・Network structure analysis of rubber materials ・Structural analysis of polymer alloys ・Structural analysis of trace graft monomers ・Analysis of intermolecular interactions in composite materials ・Evaluation of crosslink density in resins and rubber materials ・Analysis of molecular mobility in polymers ・Analysis of reaction processes in polymer materials ・Quantification of degradation in polymer materials ・Reaction analysis of fillers/silanes coupling agents ・Visualization of particle dispersion state in concentrated slurries ・Analysis of interactions between binders and pigments in paints ・Observation of the curing process of adhesives ・Analysis of the three-dimensional structure and motion characteristics of proteins

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