Q: What Is Scientific-grade Quadriband Raman Microscope?
A: ATR8800 integrates the max. quadriband into Sientific-grade Raman microscope.

ATR8800 Model No. Rules:
ATR8800AF-LT-FL350-532+633: 
AF: Auto Focus
LT: long integration time
FL: Focal length350mm
Dual-band: 532nm & 633nm

ATR8800MP-SCM-FL760-532+633+1064: 
Scanning Imaging: SCMOS Detector
Focal Length:760mm
Triple-Band: 532nm, 633nm and 1064nm

Table 1 ATR8800 product selection table

Model

Focus length

Excitation wavelength /nm

Laser power /mW

Maximum wave number range

Miniature resolution/cm-1

ATR8800-FL350

 350mm

532

100

200 ~ 3700

1.4

633/638

80

200 ~ 3500

1.4

785

350

200 ~ 3500

2.1

1064

500

200 ~ 2500

5.2

ATR8800-FL510

510mm

532

100

200 ~ 3700

0.9

633/638

80

200 ~ 3500

0.9

785

350

200 ~ 3500

1.4

1064

500

200 ~ 2500

3.6

ATR8800-FL760

760mm

532

100

200 ~ 3700

0.5

633/638

80

200 ~ 3500

0.5

785

350

200 ~ 3500

1.0

1064

500

200 ~ 2500

2.7

ATR8800LT:3rd stage cooling to -30℃, long integration time (up to 1.3h)

ATR8800SCM:Te-Cooled SCMOS detector

ATR8800BS:Basic series

ATR8800AF:Auto-focus

ATR8800MP:Scan imaging-Mapping, Auto-focus


Q: How to choose wavelengths of Raman Spectrometer?
266nm wavelength can differ the fluorescence signal from Raman signals so that it can be used to measure fluorescent materials
523nm wavelength is usually used to detect graphene, virus.
633nm wavelength is suitable for metallic oxide.
785nm wavelength can satisfy the general-purpose measurement
830nm wavelength is suitable for noninvasive blood glucose.
1064nm wavelength is suitable for the biological tissue, cell, bacteria, fuel,  and high fluorescence samples.

Q: What's the application of Scientific-grade Quadriband Raman Microscope?
A: They are widely applied to Bioscience, Forensic analysis, Material science research,Medical Immunology,Agricultural and food science,Wastewater analysis,Gemstone & inorganic minerals identification,Environmental science,Nano particles and new materials

Q: What Is Scientific-grade Quadriband Raman Microscope Used For?
A: They are used for scientific research and analysis with high precision accuracy.

Q: What does a Scientific-grade Quadriband Raman Microscope tell you?
A: ATR8800 represents Optosky's the cutting-edge technology  and mighty capabilities to provide one-stop solution to the non-expert user. It provides wavelength flexibility for customer's selection as many as duadriband.

Q: How Much Does Scientific-grade Quadriband Raman Microscope Cost?
A:  Prices ranging from USD50,000~350,000/unit differ to different models.

Q: How Does Scientific-grade Quadriband Raman Microscope Work?
A: The ATR8800 series scientific-grade Raman microscope integrates two lasers, and combines the advantages of the microscope and the Raman spectrometer. Optosky self-developed Raman imaging microscope realizes "seeing is testing", say visualize precision positioning the micro-area of the sample at the microscope platform so that the observer can collect the Raman signals from the different surface of the sample, and meanwhile displaying the image of the detected areas on the computer.

Q: What Are The Advantages of Scientific-grade Quadriband Raman Microscope?
1st, Optosky provides the world's exclusive quadri-band Raman microscope available in 532nm+633/638nm+830nm+1064nm. 
2nd, Optosky self-develops the most advanced and powerful Raman microscope software combining both functions of mapping and image splicing.
Mapping : Through the sample detected in the selected area can display intuitively the content distribution.
Image splicing:  Image splicing can realize Mappping of contents distribution in different colors in a selected area.
Optosky instrument has Dual-bands wavelengths and three-bands wavelengths for you to choose from.
3rd, Optosky provides the highest performance Raman microscope cost less indicating mighty manufacturer's technical capabilities and comprehensive manufacturing support.
4th, Rotating grating design, integrated high resolution and wide range advantages just in one equipment
5th, User-friendly seal door design fit to different ambient light condition
6th, the Long focal length & super high-resolution design
7th, Ultra-field imaging function (optional).
8th, Super sensitivity, SNR > 6000:1.
9th, The maximum integration time reaches up to1.3 hours.

Q: How To Choose Scientific-grade Quadriband Raman Microscope?
Firstly, How many wavelengths applicable to research application?
Secondly, Which models of Raman microscope?Available in ATR8500 & ATR8800
Finally, select a reliable brand of Optosky that provides customization performance at competitive price.

Q: Where To Purchase Scientific-grade Quadriband Raman Microscope?
A: Contact manufacturer for customization services.

Q: Why Choose Optosky's Scientific-grade Quadriband Raman Microscope?
A:
  • Optosky has been developing Raman spectrometer for 20-year.
  • Optosky is China National Standards drafter of Raman spectrometer
  • Top 1 in China brand and Top 3 brand in the world.
    In 2016 launch the first generation handheld Raman spectrometer,
  • In 2017 launch the dual-band Raman spectrometer
  • In 2020, launch the triple-band Raman microscope
  • In 2021, launch the quadriband scientific-grade Raman microscope
  • Optosky represents the highest performance cost less Chinese high-tech manufacturers with industry-leading warranty guarantee and technical support.
  • Optosky's Raman spectroscopy technology originate from Shanghai Institute of Technical Physics Chinese Academic of Science University and Xiamen University Zhong Qun Tian who discovers SHINERS makes SERS can be preserved longer than 2 years.
  • Quality control system follows Agilent Technologies
  • 60% R&D engineers  provide Industrial-leading warranty guarantee and technical support services
  • The most experienced engineers and 3 Drs team in Raman spectroscopy
  • Complete certification of ISO, CE, FDA Approval, Police Approval, API Approval

Q: Why the 1064nm Raman can resist high fluorescence materials?
A: 1064nm belong to NIR photon has a low frequency, low energy is seldom absorbed by the sample molecule, and it's difficult to excite ground state electron as well as fluorescence, so that it prevent fluorescence from generation.

Q: Why Raman signals are easily annihilated by fluorescence?
A: Fluorescence intensity is about 10^6 times stronger than that of Raman signal. traditional Raman signals are easily annihilated by fluorescence.

Q: Which materials have high fluorescence recommended to use 1064nm Raman?
A: Such as Heroin, Fentanyl, Colour samples, Biological samples, Textiles, Bacteria, Drugs, Fuel, Petroleum samples, Vegetable oils, Explosives, Plastic.

How many methods can remove fluorescence interference?
1st, Baseline correction uses an algorithm to remove fluorescence interference.
2nd, Difference Raman uses two wavelengths of lasers (eg: 784.5nm+785.5nm) to excite samples can obtain two sets of Raman signal and calculate the difference to obtian the spectrum without fluorescence.
3rd, Time gate control method
4th Fluorescence photobleaching method
5th, 1064nm Raman spectrometer is highly recommended

Q: What is the application of Raman spectrometer used in public safety?

A: When we still vividly remember the unpleasant memories happened in 2014 Xiamen city and a burned bus on which the passengers bringing the petrol along and bus burned suddenly killing many passengers. If the Raman spectrometer can be used to detect the explosives flammable and hazardous liquids on the entrance can avoid this accident. It takes few seconds to detect results, entrance and exit on the Metro, airport, BRT, bus, stadium, and large public places. And also government court, Police, Jail and fire fighting.

Q: What is the application of Raman spectrometer used in public safety?

A: In Jail, there are some criminals have potential intention of killing themselves. These criminals could find ways to bring in drugs, toxic substance inside jail. It’s needed to detect the presence of these toxic substance before entering jail. In court, there are some defendants who threatening to kill themselves to prove their own innocent. It’s necessary to use Raman spectrometer to detect the toxic substances before entering the court. The police arrest drug dealers and few criminal investigations and illegal factory check. Only the applications related to the drug enforcement administration, customs entry and exit, and police border defenses and fire brigade and court and jail. It’s known that fentanyl has many hundreds of variance and a Raman spectroscopy is very good tool to take fast take hundreds fentanyl variants to perform field criminal investigation on illegal factory check. Such as the 1064nm handheld Raman spectrometer can export good spectra of methamphetamine, Ketamine, Ephedrine. Etc.

Q: What is the application of handheld Raman analyzer used to identify gemstones?

 A: Handheld Raman analyzer, Portable Raman spectrometer, and Raman microscope are used to identify gemstones, Jade bracelet, diamond ring. Raman spectroscopy technology is the a great tool to identify true and take gemstones.

Q: What is the application of Raman spectrometer used in biomedical industry?

A: Raman Spectrometer is applied to biomedical industry, such as non invasive blood glucose.  The Samsung company announced the non invasive blood glucose wristband applied Raman spectroscopy technology. Apple company is researching on it. These two well-known companies had already developed the finished blood glucose wristband, say, non invasive blood glucose wristband have already made the industrialization possible. And the Raman spectrum can display different blood concentrations shown on a cell phone APP.

Q: What is the Raman spectrometer applied to detect cancer?

 A: In the published paper reviewed that the patients diagnosed cancer can be identified by Raman spectroscopy. The patient diagnosed cancer shows the peak in 751nm, and the healthy person shows the peak in 758nm, there are 7cm-1 shift and and this paper writer confer the accuracy is high. In addition, the Raman spectroscopy is applied to detect skin cancer. 

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 ma

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