ATR3000 portable Raman analyzer fit to fieldwork. With high reliable measuring accuracy, excellent low stray light, it enables a wide range of applications, especially in industries of the biochemical analyzer, public safety, food safety, pharmaceutical engineering etc. The multi-function software realizes the application of the spectral analysis process. The remote experiment access to the internet improves efficiency.
ATR3000 built-in interface enables users both technical & non-technical to work freely. The high-quality hardware configuration and robust multivariate algorithms provide accurate, uniform and reliable detect results.
Webpetsupply library includes over 10,000 substances, they are still updating:
Pharmaceutical Drugs:Heroin, Ice, Caffeine, Papaverine, Cocaine, Ketamine, Dulidine Hydrochloride, Marijuana, and more. (over 50 substances)
Explosives:Tnt, Ammonium Nitrate, Cyanide, Octogen, Hexogen and more. (over 50 substances)
Flammable And Combustible:acetaldehyde, Paint Thinner, Acetic Acid, Gasoline, Kerosene, Diesel, Toluene, Acetic Anhydride, Methanol, Ethylene Glycol, Propylene Oxide, Methylcyclohexane, Ethyl Butyrate, Xylene, Cyclohexane, Propionaldehyde, Isopropanol, N-hexane, Petroleum Ether, Nitromethane, Carbon Disulfide, Acetonitrile, Nitrobenzene, and more. (over 50 substances)
Precursors:sulfate, Nitric Acid, Hydrogen Peroxide, Ethanol, Benzene, Diethyl Ether and more.(over 600 substances)
Narcotics:(-)-ephedrine, Pseudoephedrine and more. (over 100 substances)
Detector | |
Detectable range | 200-1100 nm |
Detector type | Ultra-high sensitivity, quick cooling CCD |
Pixels dimension | 2048*64 |
Full well capacity | 300 Ke- |
Sensitivity | QE>40%, 6.5 μV/e- |
Pixel size | 14μm×200μm |
Excitation light | |
Power stability | σ/μ <±0.2% |
Central wavelength | 532nm (+/-1nm) |
FWHM | 0.08nm |
hyperspectral | |
Slit Width | 50 μm |
Optical parameter | |
Numberical aperture | 0.3 |
SNR | >2000:1 |
Physical parameters | |
Dimensions | 40×30×18 cm3 |
Weight | 7.5kg |
Raman Instrument | |
Screen | 11.6-inch capacitive touch screen, Multi-touch |
Temperature reliability | Spectral shift ≤ 1 cm-1 (10-40 ℃) |
Raman Spectrometer System Parameters | |
Interface | USB 2.0 and WIFI |
Operating System | Android |
Integration time | 4ms-120s |
Power Voltage | DC 220V(+/-5%) |
Operating Humidity | < 95% |
Raman spectrometer Relibility | |
Spectral Stability | σ/μ < 0.5% (COT 8 hours) |
Raman Spectrometer Optical Parameters | |
Spectral Range | 540-745nm |
Resolution | 19 cm-1 |
Raman spectrometer Detector | |
Cooled down to | -10 ℃ |
Dynamic range | >10000:1 |
Raman Spectrometer Laser Parameters | |
Laser power | ≥100 mW |
Excitation Wavelength | 785nm |
Raman probe | |
Aperture | 7mm |
Rayleigh scattering resistance | OD>8 |
Raman Spectrometer Probe | |
Operating Distance | 3mm |
Microscopic optical system | |
Optical system | f/4 C-T crossed optical path |
Focusing device | 98 mm for incidence and output |
Electrical parameter | |
Operating temperature | -10 - 40 ℃ |
- NDT, Fast ID
- Accurately identify materials categories and chemical components
- Non-contact, glass, plastic bags, transparent or semi-transparent containers
- Safe radiation free, 532 laser
- High resolution can identify fine finerprint differences
- Multiple modes option, fast detect, accurate detect and precision detect
- Detect results can be stored and exported
- Biological science
- Pharmaceutical engineering
- Forensic analysis
- Agriculture and food safety
- Gemstone
- Environmental science
Q: Why the 1064nm Raman can resisit high fluorescence materials?
A: 1064nm belong to NIR photon has 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.
Q: How many methods can remove fluorescence interference?
1st, Baseline correction use algorithm to remove fluorescence interference.
2nd, Diference Raman use 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 Florescence photobleaching method
5th, 1064nm Raman spectrometer is highly recommended