This instrument is an advanced equipment that integrates micro-area Raman spectroscopy, micro-area infrared spectroscopy and optical digital microscopy. Infrared microscopes and Raman spectrometers can be used to characterize and analyze the surface morphology, particle size, roughness, reflection spectrum and Raman spectrum properties of nanomaterials respectively, thereby providing more comprehensive information on the sample and providing sharp microscopic images. image.
The ATRP8300Pro visual precise positioning Raman detection platform allows observers to detect Raman signals of different surface states on the sample, and can simultaneously display the micro-area morphology at the detected location on the computer.
ATRP8300Pro is equipped with an objective lens specially designed for the Raman system, which makes the laser spot close to the diffraction limit. The focus information is accurately and intuitively displayed on the computer through a 5-megapixel camera to improve the quality of the Raman spectrum.
At the same time, ATRP8300Pro uses high-performance Raman specially optimized for micro-Raman systems. It is industry-leading in terms of sensitivity, signal-to-noise ratio, stability, etc., providing a strong guarantee for Raman research.
Model | Feature |
ATRP8300Pro | Micro-Raman + infrared integrated machine, Base |
ATRP8300Pro-AF | Auto Focus |
ATRP8300Pro-MP | Mapping type (highest configuration, auto-focus, auto-scan) |
Raman Instrument | |
Wavelength range detected | Si:200nm~1100nm InGaAs:900-1700nm |
SNR | >6000:1 |
raman spectrometer | |
Detector Dynamic Range | 13000:1 |
Microscope Camera System | 3 or 5 megapixel industrial camera |
Raman spectrometer Relibility | |
Spectral Stability | σ/μ < 0.5% (COT 8 hours) |
Temperature Stability | Spectral shift ≤ 1 cm-1 (10~40 ℃) |
- Micro-infrared, micro-Raman, micro-imaging
- Micro area positioning device
- Ultra-high power optical positioning system
- Auto focus, auto scan;
- Broad reflection spectrum measurement (350-2500nm);
- Fully automatic reflectance spectrum imaging experiment;
- Ultra-high sensitivity, performance-to-noise ratio >6000:1
- Unique software controls switching light path
- Rapid positioning
- High-quality objective lens, micron-level light spot
- 5 million camera
- Raman excitation wavelength: 532, 633, 785, 830, 1064nm optional
- USB2.0
- Nanoparticles and new materials
- Universities and research institutes
- Biology
- Forensic medicine identification
- Material science
- Medical immunoassay
- Agriculture and food identification
- Water pollution analysis
- Gem and inorganic mineral identification
- Environmental science