Multi-wavelength excitation-based fluorescence elimination method for Raman spectrum

A Raman spectroscopy and fluorescence elimination technology, applied in the fluorescence elimination field of Raman spectroscopy, can solve the problems such as fluorescence spectrum is not as stable as Raman spectrum, difficult to realize with micro-miniature Raman spectrometer, cannot guarantee the purity of Raman spectrum, etc. The steps are simple and easy to implement, the Raman signal is pure, and the effect is easy to popularize and apply.

Inactive Publication Date: 2010-04-07
GUANGXI UNIVERSITY OF TECHNOLOGY
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Problems solved by technology

[0005] The existing fluorescence background processing uses baseline correction methods such as spline fitting, Fourier transform, and wavelet transform. Based on the baseline correction method, it can be seen from the principle that the purity of the Raman spectrum cannot be guaranteed; , but the fluorescence spectrum is far less stable than the Raman spectrum, the measurement conditions have a great influence on ...

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  • Multi-wavelength excitation-based fluorescence elimination method for Raman spectrum
  • Multi-wavelength excitation-based fluorescence elimination method for Raman spectrum
  • Multi-wavelength excitation-based fluorescence elimination method for Raman spectrum

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Embodiment 1

[0029] A fluorescence elimination method based on multi-wavelength excitation Raman spectroscopy. This method is to irradiate the same sample with multiple excitation lights of similar wavelengths sequentially generated by a laser light source semiconductor laser, and sequentially excite different fluorescence and Raman spectra. The mixed spectrum composed of Mann light; the array photosensitive spectrometer collects each mixed spectral signal, with the light intensity as the ordinate, the excitation light wavelength as the origin, and the frequency shift wavenumber as the abscissa, align each mixed spectrum, and normalize through the full spectrum integral value Then, the difference between each pair of mixed spectra is calculated, and the difference is the difference value of the fluorescence signal, and the difference step size is two mutual differences The difference between the wavelength of the excitation light of the subtracted mixed signal is calculated, and the inverse...

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Abstract

The invention discloses a multi-wavelength excitation-based fluorescence elimination method for Raman spectrum, which relates to a method of chemical analysis and photoelectric signal processing and comprises the steps of: sequentially exciting mixed spectra consisting of fluorescence and Raman light by irradiating a plurality of similar wavelength lasers sequentially generated by a laser source to the same measured sample; when a spectrograph acquires various mixed spectrum signals, aligning the mixed spectra, and normalizing and correcting the amplitude of the spectrum signals through a full spectrum integral value to obtain spectra of which the X-coordinates are aligned and the amplitude of the Y-coordinates is corrected; evaluating a difference value between each two mixed spectra, wherein the difference value is a differential value of a fluorescence signal; calculating an inverse difference of the differential value, wherein the inverse difference is divided by a differential step to obtain the sum of a fluorescence background value and a constant; and finally, deducting the fluorescence background value from the mixed spectra to separate a pure Raman spectrum so as to achieve the aim of fluorescence elimination of the Raman spectrum. The method is reasonable, can eliminate background fluorescence effectively, has low cost and convenient use, and is easy to popularize and use.

Description

【Technical field】: [0001] The invention relates to a method for chemical analysis and photoelectric signal processing, in particular to a method for eliminating fluorescence based on multi-wavelength excited Raman spectrum. 【Background technique】: [0002] Raman spectroscopy is a non-destructive testing technique applicable to various physical forms of substances. Its applications include materials, chemical engineering, biomedicine, environmental protection, archaeology, geology, as well as commerce and criminal justice. There are three directions of light irradiated on the material, part of which is transmitted, part of which is absorbed, and part of which is reflected or scattered; the scattered light includes direct reflection light with the same wavelength as the incident light, and part of which is different from the wavelength of the incident light. Changes in light related to the molecular properties of substances, among which Raman light is caused by wavelength chan...

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Application Information

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IPC IPC(8): G01N21/65
Inventor 姚志湘粟晖
Owner GUANGXI UNIVERSITY OF TECHNOLOGY
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