• Basics: Spectral A spectral microscopy system is amost always used to detect and characterize very weak spectral signals. To provide optimum sensitivity PARISS transmits up to 90% of all wavelengths in the visible.

• Samples: The PARISS Spectral Microscopy system is designed to handle complex heterogeneous samples such as nanoparticles, histological, cytological, industrial, physics and chemistry samples.

• Researchers using PARISS have made the front cover of journals four times, including one tutorial! Click to visit.

• Key functions: Spectral segmentation and spectral mapping in fluorescence, transmission, absorption, in bright-field, dark-field, or reflection.

• Multiple fluorophores: Identify any or all of up to 15 spectrally overlapping fluorophores, simultaneously, anywhere in a sample field of view

• Resolution: 1 nm; Spectral range: 365 to 920 nm simultaneously
  Quantum Efficiency Correction: Radiometric after correction with a NIST traceable lamp

• Fluorescence, Luminescence
• % Reflection
• % Transmission
• Absorbance (Optical Density)
• Color Coordinates (CIE)
• Build Spectral librariesSpectral range: 365 - 920 nm simultaneously

• Fluorescence, Luminescence
• Bright-Field transmission
• Dark-Field transmission
• Radiometrically calibrated

Spectral microscopy applications:
Histopathology, Cytology, Nanoparticle imaging, physics, Forensic analysis