Portman-1064 is a portable Raman spectrometer with high sensitivity and high signal-to-noise ratio. Compared with 785nm and 532nm Raman spectrometers, 1064nm is less destructive to biological samples. It avoids the fluorescence emission area of many substances such as glass and biological tissues, and has the advantage of low fluorescence background for many samples to be tested. Further, 1064nm Raman system has better penetration than 532nm and 785nm Raman system in the visible band, and can penetrate brown glass bottles, white plastic packaging, paper and other packaging materials. It is suitable for many scenarios such as screening of raw materials, on-site testing, graphene synthesis reactions, biomedicine, In vitro diagnostics and materials analysis.
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Features
- High stability;
- High resolution;
- Good penetration: it can penetrate brown glass, white plastic, and wrapping paper
- Feature-rich software: configure rich spectrum processing and analysis algorithms, and choose cloud spectrum data management.
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Specifications
Model Portman-1064 Dimension 325×220×82 mm Weight ~4.4 kg Spectral range 200-2500cm-1 Wavelength resolution ~15 cm-1@25μm slit Dark noise ~10 RMS SNR 2000:1 Dynamic range 7000:1 Excitation wavelength 1064±0.5nm, line width≤0.2nm Laser power stability ≤3% P-P(@2hrs) Lifetime of laser 10,000hrs Supply voltage 5V/4A Output power 0-500mW (adjustable) Filter laser cut-off depth OD8 Operating distance of probe 7.5mm Operating temperature 0-40℃ Operating humidity 5-80%
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Dimensional drawing
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Applications
- Materials characterization
- Biomedicine
- Waste plastics classification
- API identification
- Monitoring process control in a range of industries from pharmaceuticals to petrochemicals
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Typical spectrum
Sample: Ethanol
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Sample: Acetaminophen
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