The core advantages of this high-resolution laser Raman microscope include its dual-wavelength laser system (532nm and 785nm) that adapts to different sample types, and its high spectral resolution of 0.5cm⁻¹ and ultra-high detection sensitivity of 10⁻¹⁸ mol, enabling detection of trace components in tiny sample areas. The motorized electric sample stage supports automatic point, line, and area scanning, enabling rapid acquisition of spectral and imaging data for large sample areas. The dedicated Raman spectral analysis software can automatically identify sample components by comparing with built-in material databases, and generate component distribution images, providing intuitive and accurate analysis results.
This high-resolution laser Raman microscope is equipped with two excitation lasers (532nm and 785nm) with a spectral resolution of 0.5cm⁻¹ and a detection sensitivity of 10⁻¹⁸ mol. It has a magnification range of 20x to 1000x, and a motorized XY sample stage with an imaging range of 50mm x 50mm. It supports three imaging modes: point scanning, line scanning, and area scanning, and is compatible with solid, liquid, powder, and biological samples. The passive damping platform effectively isolates external vibrations, ensuring stable and accurate spectral and imaging data. The device is powered by 110/220V AC, with overall dimensions of 1000mm (W) x 800mm (D) x 600mm (H), and supports data export in multiple formats for further analysis.
This high-resolution laser Raman microscope is widely used in drug component identification, forensic trace evidence analysis, food additive detection, carbon material microstructure analysis, semiconductor material component detection, and jewelry authenticity identification. It helps researchers and inspectors obtain accurate component information of tiny sample areas, solving the problem of traditional detection methods that cannot achieve micro-scale component analysis.
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