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The laser microscope Raman imaging spectrometer is developed based on a new generation of micro confocal optical system.
It is equipped with a high-quality image correction spectrometer and an imported CCD detector.
All components are integrated to ensure the stability of the instrument performance to the greatest extent.
Various Raman spectral information such as chemical composition, crystal structure, intermolecular interaction and molecular orientation of the sample can be obtained.
It is widely used in physical and chemical experimental research in universities and scientific research institutes, such as compound functional group analysis, molecular dynamics Research, carbon fiber/carbon nanotube Raman spectroscopy, surface analysis/monolayer film analysis, polymer tissue structure analysis, cell tissue research, criminal investigation identification, archaeology, geology and other multidisciplinary fields
.
Raman spectroscopy is usually qualitative, but can also be used quantitatively under specific conditions
.
In general, Raman spectroscopy (including peak positions and relative intensities) provides a chemical fingerprint of a substance that can be used to identify it and distinguish it from other substances
.
The actual Raman spectrum is usually very complex, and the identification of unknown objects through the assignment of spectral peaks is relatively complicated
.
However, by searching the database for matches, we can quickly identify unknown objects
.
Laser Micro Raman Imaging Spectrometer can detect the chemical structure of substances, and its information includes: chemical structure and chemical identification
.
Other things being equal, the spectral intensity is proportional to the sample concentration
.
After the relationship between peak intensity and concentration (standard curve) has been determined for samples with standard concentrations, concentration analysis can be performed
.
For mixtures, relative peak intensities can provide information about the relative concentrations of various components, while absolute peak intensities can reflect absolute concentration information (corrected by reference to standard concentrations)
.
The light source should be preheated for five to ten minutes before use, and the power supply of the instrument should be stable at the same time.
When connecting the experimental instrument, ensure that each connection port is tightly connected.
During the experiment, try to avoid the operation of loosening the interface, and do not cause large vibrations.
Because the instrument is a highly sensitive instrument, if the connection of the instrument is loose, it will cause errors in the experiment
.
It is equipped with a high-quality image correction spectrometer and an imported CCD detector.
All components are integrated to ensure the stability of the instrument performance to the greatest extent.
Various Raman spectral information such as chemical composition, crystal structure, intermolecular interaction and molecular orientation of the sample can be obtained.
It is widely used in physical and chemical experimental research in universities and scientific research institutes, such as compound functional group analysis, molecular dynamics Research, carbon fiber/carbon nanotube Raman spectroscopy, surface analysis/monolayer film analysis, polymer tissue structure analysis, cell tissue research, criminal investigation identification, archaeology, geology and other multidisciplinary fields
.
Raman spectroscopy is usually qualitative, but can also be used quantitatively under specific conditions
.
In general, Raman spectroscopy (including peak positions and relative intensities) provides a chemical fingerprint of a substance that can be used to identify it and distinguish it from other substances
.
The actual Raman spectrum is usually very complex, and the identification of unknown objects through the assignment of spectral peaks is relatively complicated
.
However, by searching the database for matches, we can quickly identify unknown objects
.
Laser Micro Raman Imaging Spectrometer can detect the chemical structure of substances, and its information includes: chemical structure and chemical identification
.
Other things being equal, the spectral intensity is proportional to the sample concentration
.
After the relationship between peak intensity and concentration (standard curve) has been determined for samples with standard concentrations, concentration analysis can be performed
.
For mixtures, relative peak intensities can provide information about the relative concentrations of various components, while absolute peak intensities can reflect absolute concentration information (corrected by reference to standard concentrations)
.
The light source should be preheated for five to ten minutes before use, and the power supply of the instrument should be stable at the same time.
When connecting the experimental instrument, ensure that each connection port is tightly connected.
During the experiment, try to avoid the operation of loosening the interface, and do not cause large vibrations.
Because the instrument is a highly sensitive instrument, if the connection of the instrument is loose, it will cause errors in the experiment
.