2030PV PRO Microspectrophotometer

Specifications

Spectral Range: 200 – 2500 nm
Spectral Resolution: 3 nm
Detection Spectral Range: 1 – 1 nm
Excitation Laser Wavelength: 785nm
Sample Stage (manual Or Motorized): X or Y or Z
Document icon Download Data Sheet Download icon

Features


  • Superior UV-visible-NIR Spectra and Images: Obtain high-quality spectra and images of microscopic samples.

  • Wide Spectral Range: Covers 200 to 2500 nm for comprehensive analysis.

  • Absorbance Microspectroscopy: Analyze absorbance characteristics of samples with precision.

  • Transmission Imaging: Capture detailed transmission images of microscopic areas.

  • Reflectance Microspectroscopy and Imaging: Measure and visualize reflectance properties.

  • Fluorescence Microspectroscopy and Micro-Imaging: Study fluorescence at the microscale.

  • Raman Microspectroscopy: Perform Raman analysis for molecular characterization.

  • Photoluminescence Microspectroscopy and Imaging: Investigate photoluminescent properties.

  • Polarization Microspectroscopy and Imaging: Analyze polarization effects in samples.

  • Thin Film Thickness Measurements: Determine the thickness of thin films accurately.

  • Colorimetry of Microscopic Samples: Assess color spaces with precision.

  • Refractive Index Measurements: Measure the refractive index of microscopic particles.

  • Manual or Fully Automated Operation: Choose between manual control or automation for convenience.

  • Featuring Lightblades™ Technology: Enhanced performance with advanced technology.

  • Precision Temperature Control: Maintain precise temperature conditions for samples.

  • Calibrated, Variable Sample Measurement Areas: Measure areas on the micron scale with accuracy.

  • UV, Color, and NIR Digital Imaging: Capture high-resolution images across different spectrums.

Applications


  • Biology & Life Sciences: Rapid, non-invasive analysis of biological samples.

  • Materials Science: Characterization of polymers, composites, and advanced materials.

  • Nanomaterials Research: Analysis of graphene, carbon nanotubes, and other nanostructures.

  • Semiconductors & Electronics: Identification of defects, stress, and contamination.

  • Geology & Energy Research: Mineral identification and materials for energy storage.

  • Pharmaceuticals & Quality Control: Ensures purity, consistency, and contamination analysis.

  • Security & Forensics: Detection of explosives, drugs of abuse, and hazardous materials.