Why Optosky Raman Spectrometers Are the Best Choice?
1. Leading Raman Spectroscopy Technology:
Innovative Solutions: Supported by a major national project, Optosky is a leader in Raman spectroscopy technology.
National Standard Setter: We help establish industry standards, ensuring top-notch quality and performance.
2. Global Recognition:
Top Rankings: Optosky is the top brand in China and ranks third worldwide.
2016, first launched the world’s most sensitive handheld Raman spectrometer.
2017 Innovations: Introduced the first domestic 1064nm handheld Raman spectrometer and a dual-wavelength model leading the market.
2020 Advancement: Launched the Triple-Band True Confocal Raman Microscope, enhancing analytical capabilities.
2024 Milestone: Released the Quadriband True Confocal Raman Microscope with a remarkable resolution of 0.35 cm⁻¹, setting new standards in precision.
3. Extensive Product Range:
Wide Selection: We offer the broadest range of Raman spectrometers, suitable for various applications from research labs to field use.
Dual-Wavelength and Beyond: Our 2017 dual-wavelength Raman spectrometers were the first in China and second globally.
5. Why Optosky?
Exceptional Performance: Our spectrometers deliver unmatched sensitivity, accuracy, and user-friendliness.
Cutting-Edge Innovation: From handheld devices to advanced confocal microscopes, Optosky consistently leads the field with groundbreaking technology.
Choose Optosky for advanced, high-performance Raman spectroscopy solutions. Whether you need the latest in handheld devices or the most precise confocal microscopes, Optosky has the technology to meet your needs.
What is Raman Spectroscopy? Raman effect is first discovered by C.V. Raman and K.S Krishan in 1928. When a sample exposes monochromatic light, the sample absorbs the light, visual portion of light gets transmitted to the sample. However, a minor part of the light is scattered by the sample in all direction. Incident light has a particular frequency, if scattering light has frequency same as incident light, the scattering is called Rayleigh scattering. It has been observed that about 1% of total scatter intensity occurs frequency different from incident frequency, this is called Raman scattering. Raman scattering can be called a two photon process, an electron has different vibrational levels, they are defined by different specific energy differences.
When an incident molecular light interacts with an electron in the sample, an electron absorbs energy from an incident photon. It strikes the state of virtual energy, the energy transform is given by a formula. the electron falls back to energy level by losing energy. If energy loss equals the energy of the incident photon. An electron falls back to an initial level, and if this process emits another photon, since the energy loss equal value same frequency of the incident photon, as the frequency is same, Rayleigh scattering occurs. However, sometimes electron loss energy from virtual state to fall back to different vibration level. In this case, energy loss by the electron is different, and the energy absorbed from incident photon, as a result, photon emitted, the photon has energy different from incident photon, it's possible when the frequency of emitted photon is different from the frequency of incident photon, this gives right to Raman scattering, depends on final energy of electron or final vibrational of electron, Raman scattering can be separated into two, stock lines and anti-stocks lines.
If the frequency of scattering photon less than the frequency of the incident photon, stocks lines is observed on Raman spectra. It happens when an electron absorbs energy, Similarly, If frequency If scattering photon greater than the frequency of the incident photon, anti-stocks lines is observed, this means the energy released by the electron.
Raman spectra give a molecular fingerprint, different molecules have different Raman spectra, By studying spectra, one can identify rotational levels and, it helps to perform analysis of qualitative, similarly, the intensity of particular Raman lines help determine the concentration of molecule in a sample, In this manner, quantitive analysis can be done. Thus Raman spectroscopy can be used as both qualitative and quantitative analysis tool. Raman Instrument has a complete line of handheld Raman Analyzer, Portable Raman Spectrometer, Raman Microscope, Educational Raman System etc.
What is working principle of Raman spectroscopy?
Ramn spectroscopy analysis on a given sample understand is exposed and visible region absorbs light. A major portion of the light gets transmitted to the sample. A lot of the light is scattered by the sample in all directions. One can observe the scattering at right angle to the incident has a particular frequency. If the scattered light has the frequency, same as the incident light, then the scattering is called as rayleigh scattering. However, it has been observed that about 1% of the total scattered intensity frequency is different from the incident frequency. This is called as Raman category. Scattering can be thought of as two photon process. Electrons have different vibration levels. They are defined by specific energy differences. When an incident like interacts with the electron in the sample, the electron absorbs energy from the incident photon and dresses over to the state of energy. The energy transferred is given by the formula new when you the frequency of incident photon then falls back by losing energy. If the energy lost equals the energy of the incident photon, the electron falls back to its initial level and in this process, and the photon is equivalent to the energy of incident photon. The photon has the same frequency as the incident photon. As the frequencies seem really scattering occurs, however, sometimes electrons. We're losing energy from the virtual state can fall back to a different vibration level. In this case, energy lost by the electron. And the energy absorb of the incident photon. As a result, the photon emitted by the electron has energy as possible currency of the hold on , depending upon the final energy of the electron. Our final vibration can be separated into stokes line, an anti stokes line is less than the frequency. Stokes lines are observed on Raman spectrum. This happens when the electron absorbs energy frequency of the emitted photon is greater than incident photon. And the stock lines are observed. This means that energy is released by the electron spectra, the molecular fingerprint. It is different for different molecules. By studying the spectra, one can identify the traditional levels. And that's a particular molecule in performing data analysis. Similarly, the intensity of a particular online heads. One determine the concentration of molecules in a sample in this manner, quantitative analysis can be done, does Raman spectroscopy can be used to perform the analysis on the sample.
What is Raman Spectroscopy used for?
Raman spectrometer is a fast, accurate and non-destructive quantitative and qualitative analysis tool, it does not require sample pre-treatment or direct contact sample, Raman probe can detect sample at a distance of 2mm, scan spectra in a few seconds to export unique material ID.
What does Raman Spectroscopy tell you?
Raman spectrometer can identify raw materials ID, narcotics, hazardous materials, chemicals, drugs, plastics, fluids, foods, gemstones, and plastics etc.
How much does a Raman Spectroscopy cost?
Optosky Raman spectrometer prices range from USD33,000 to USD89,980 above.
How does Raman Spectroscopy work?
Raman spectrometer is made up of optic fiber spectrometer, laser, Raman probe and software, monochromic light is generated by laser shoot on the surface of sample happening Raman scattering, scattering light goes through Raman probe return to optic fiber spectrometer, spectra of the sample can be read out via Optosky software.
How to choose a Raman spectroscopy?
It's needed to consider key parameters of Raman spectrometer, such as CCD detector, resolution, SNR, wavelengths, stability, sensitivity etc. Based on your specific application, we can recommend best-matched Raman instrument to users.
Where to buy Raman spectroscopy instrument?
Optosky Raman spectrometer can be bought from local distributors, order online or contact online sales.
Why choose Optosky Raman spectroscopy instrument?
1st, Optosky is a professional manufacturer with 20-Year experience in developing spectrometer.
2nd, We are China National Standards drafter of optic fiber spectrometer.
3rd, One of the lowest price manufacturer with industry leading warranty guarantee and technical support.
Q: How is the Raman spectroscopy technology is discovered?
Q: How is the Raman spectroscopy technology is discovered?
A: There is a very interesting story told in 1920s, an Indian scientist named Raman discover why the sea is so blue, whose blue brighter than blue sky, and after his research, he finally found in 1928 that the sea has absorbed uv range and generated new blue lights. Raman write a paper of his discovery, in order to remember Raman scientist great discovery and people use his name to describe this phenomenon Raman Spectroscopy. The first Discovery of Raman spectroscopy in 1928. And in 1930s, Raman scientist has won the Nobel prize. In the scientists history, Raman spectroscopy has been a very big discovery.
Q: What is the Raman spectroscopy working principle?
A: When the molecule absorbs laser energy and generate energy level shift, but it is an unstable state. It can ring-down to the original energy level. If no energy shift part called Rayleigh scattering. However some part shift from E0 to E2, fall down to E1, This situation is called STOCKS, a single photon energy is lower energy & frequency than the laser energy but longer wavelength. The other part from E1 to higher energy level E1+hv0, and its ring down to E0 with the higher frequency and energy, but shorter wavelength called anti-stokes lines. In these situations still ring down to the deeper energy levels but less. Raman spectroscopy are mainly analyzing the STOKES lines.
Q: How is the Raman spectrometer work?
A: First of all, the narrow linewidth laser generates an excitation light go through the fiber and collimator mirror to form a parallel incident light, excitation light focus from here, and shoot on the sample to be detected. The sample absorbs excitation light energy and it happens the energy levels shift, then go through ring-down process of generating new Raman light with a 360 degree scattering. Some portions of Raman scattering can be collected by our objective lens, then reflected from here, through long pass filter Rayleigh scattering, then couple into inside fiber and spectrometer. Raman spectrometer is used to analyze the collected Raman signal, wavelength, and intensity. Finally, it can get the Raman signal.
Q: How is the spectrometer work?
A: The CCD export signal going through circuit, DC power, and USB, then transfer on the PC software, and finally obtain spectrum result.
Q: What is the application of Raman spectrometer?
A:
1st, Biomedical industry of early cancer detection, ultrastructure change of biological molecule, calculi components analysis.
2nd, Public Safety of Drugs and Narcotics, Fast Detect Toxic Substance, explosives & Flammable materials, Drink water.
3rd, Environmental science of waste water contamination, petroleum analysis, deposits analysis.
4th, Pharmaceutical Engineer, Drugs scan and analysis, Crystallization in process monitor, Raw material QA & QC
5th, Food Safety, Detect refined gutter oil, Detect pesticides residues, Food additives and contaminants.
6th, Gemstones ID, Trace gemstones place-of-origin, Anti-counterfeiting, Antique ID
Q: What are differences between Infrared spectroscopy and Raman spectroscopy?
A: Infrared spectroscopy and Raman spectroscopy are twin brothers, their spectra are mutually complementary.
1st, Working Principle Differences:
Infrared spectroscopy absorbs molecule absorption spectra, but the Raman spectroscopy absorbs the molecular emissions spectra with higher accuracy. It’s important to get a general idea that Raman spectroscopy technology is more accurate than Infrared spectroscopy.
2nd, Infrared spectroscopy is measured by contact, most infrared measurement requires sample preparation, but Raman spectroscopy requires no sample preparation and non-contact measurement through the glasses, plastic bags, kraft papers, and envelop etc.
3rd, Measure methods are different, infrared spectroscopy is destructive measurement can damage the sample requires larger samples quantities and consumable materials, but Raman spectroscopy is non-destructive measurement and can non-contact sample, no consumables materials.
4th, Infrared spectroscopy requires sample preparation, but the Raman spectroscopy requires no sample preparation.
5th,Infrared spectroscopy measure molecular group, but Raman spectroscopy measure molecular skeleton with higher accuracy.
6th,Tell the differences of isomer, including monomer isomeride, position
7th, Infrared spectroscopy can not tell the difference of isomers, but the Raman spectroscopy can tell the difference of isomers, including monomer isomer, position isomers, geometric isomers, Fentanyl variants generated in varaints fast, and Raman spectrometer has positive advantage for Fentanyl detection.
8th, Infrared spectroscopy can not detect sample in water solution, which is easily influenced by the water, but Raman spectroscopy has little influence on water, even if the peak of Another one is solutions. Infrared spectra is easily influenced by the water, but Raman can not be influenced by water am water has not raman signal, even at the peak of 3400 has a small curve, which have no influence on our measurement.
9th, Infrared spectroscopy is sensitive to water vapour, however, Raman spectroscopy can detect at any state anywhere.
10th, Infrared spectroscopy requires huge amount of samples to build up modeling, but it only takes 1-2mg sample to build a library.
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