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Pure chemical shift-based nuclear magnetic resonance diffusion spectroscopy method

A pure chemical shift and nuclear magnetic resonance technology, applied in the field of nuclear magnetic resonance diffusion spectrum based on pure chemical shift, can solve the problems of spectral peak signal amplitude distortion, spectral peak signal cannot be accurately assigned and quantitatively analyzed, narrow chemical shift range, etc.

Active Publication Date: 2018-04-13
XIAMEN UNIV
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AI Technical Summary

Problems solved by technology

Although the above method provides a direct and effective way to measure the diffusion coefficient, it also has some obvious defects.
First of all, due to the influence of the J-coupling effect, the peak intensity of the obtained one-dimensional hydrogen spectrum will be modulated by the J-couple, which will distort the amplitude and phase of the peak signal, and eventually lead to inaccurate measurement of the diffusion coefficient.
Secondly, due to the peak splitting caused by the J-coupling effect and the narrow chemical shift range of the one-dimensional hydrogen spectrum itself, the obtained one-dimensional hydrogen spectrum often appears crowded.
Especially in the detection of complex samples, this phenomenon will be more serious, and eventually lead to the inability to accurately assign and quantify the peak signals required for diffusion coefficient fitting.

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  • Pure chemical shift-based nuclear magnetic resonance diffusion spectroscopy method
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Embodiment Construction

[0016] In order to make the purpose, technical solutions and advantages of the embodiments of the present invention clearer, the following examples illustrate the embodiments of the present invention in further detail:

[0017] The sample used in this embodiment is a heavy water mixed solution of pyridine, 2,3 dihydrofuran and n-acetone, and the instrument used is a Varian 500MHz nuclear magnetic resonance spectrometer. The main magnetic field was kept uniform throughout the experiment. First, measure the RF pulse width used in the pulse sequence, and import the compiled figure 1 For the pulse sequence shown, open the relevant modules of the pulse sequence, including the response echo diffusion module and the PSYCHE pure chemical shift module, and set the corresponding experimental parameters. Specifically for the samples used in this embodiment, the experimental parameters are set as follows: the direct dimension spectral width SW1 is 10000 Hz, the indirect dimension spectra...

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Abstract

The invention discloses a pure chemical shift-based nuclear magnetic resonance diffusion spectroscopy method, and relates to nuclear magnetic resonance spectroscopy detection. A response echo diffusion module is used to realize diffusion coefficient evolution; a PSYCHE pure chemical shift decoupling module is used to eliminate J coupling effect induced spectral peak splitting, and one-dimensionalpure chemical shift spectrum information is provided for the measurement of the diffusion coefficient; and specific data fitting processing is carried out to obtain a pure chemical shift-diffusion coefficient related two-dimensional diffusion spectrum, and the two-dimensional diffusion spectrum is used to directly detect the diffusion coefficient of every component in a sample and the error thereof and realize component separation of the sample. The method does not need a special sample processing process, is simple and easy, and is suitable for any routine nuclear magnetic resonance spectrometer.

Description

technical field [0001] The invention relates to nuclear magnetic resonance spectroscopy detection, in particular to a pure chemical shift-based nuclear magnetic resonance diffusion spectrum that can obtain a pure chemical shift-diffusion coefficient correlation two-dimensional spectrum, which can be used to detect the diffusion coefficient of complex mixture components and realize component separation method. Background technique [0002] As a non-invasive non-destructive testing and analysis technology, nuclear magnetic resonance spectroscopy is widely used in chemistry, biology, materials and other disciplines, especially hydrogen nuclear magnetic resonance spectroscopy is the most widely used. NMR spectroscopy can provide not only structural information such as molecular structure and spin-nuclear coupling network, but also molecular dynamics information such as relaxation and diffusion. Among them, the diffusion coding evolution of nuclear magnetic resonance signals usi...

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Application Information

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IPC IPC(8): G01N24/08
CPCG01N24/088
Inventor 黄玉清李晨陈忠赖伟楠谭春华
Owner XIAMEN UNIV
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