Description
Features
- Fast detection speed and high measurement sensitivity
- Adjustable laser power
- High resolution and distinctive fingerprint characteristics, enabling easier extraction of feature peaks for accurate identification of substance type and chemical composition
- 1064 nm laser wavelength provides excellent resistance to fluorescence interference
- Optimised automatic mixture analysis algorithms for more effective identification of complex compositions
Parameters
| Laser Wavelength | 1064 nm |
| Laser Power | 0–600 mW (software adjustable) |
| Wavenumber Range | 200–2500 cm-1 |
| Resolution | 8–15 cm-1 |
Detection Examples
The increasing spread and rapid update of new drugs have put forward higher and higher requirements for the rapid on-site detection of law enforcement departments.
Surface-Enhanced Raman Spectroscopy has a significant advantage in the rapid on-site detection of narcotics. As a molecular vibration spectroscopy technique, Raman spectroscopy can analyse the structure and composition of chemical substances with high sensitivity. Its prominent advantages include non-contact and non-destructive detection, minimal sample quantity required, no complex pre-processing required, fast detection speed, simple operation, and high sensitivity detection of narcotics when combined with SERS technology.
Figures
- Figure 1: Conventional Raman testing is subject to signal interference from glucose, starch or other strong fluorescent impurities.
- Figure 2: Enhanced Raman testing: clear signal, accurate identification.
Application Area
Widely applied in national security, drug enforcement, security screening, hazardous materials inspection, and scientific research.
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