MP-SPR Navi™ 200 OTSO
Modular entry-level Multi-Parametric Surface Plasmon Resonance (MP-SPR) system for real-time interaction measurements and layer characterization.
-Entry-level modular MP-SPR system—great for researchers and teaching purposes with expandable configuration.
-Wide angular SPR range (40°–78°)—enables analysis of diverse samples from small organic molecules to proteins, nanoparticles, and cells.
-2 fluidic measurement channels—allows parallel dual-channel experiments on one sensor slide.
-Optional multi-wavelength detection (up to 4 wavelengths per channel)—supports precise determination of layer thickness and refractive index.
-Open design for auxiliary instrumentation—ideal for integration with complementary tools (e.g., electrochemistry, fluorescence).
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Description
The MP-SPR Navi™ 200 OTSO is a semi-automated multi-parametric surface plasmon resonance instrument that enables real-time, label-free analysis of molecular interactions, layer thickness, and refractive index changes. Its open modular design facilitates easy access to removable flow cells, pumps, tubing and injection valves, making it flexible to integrate with auxiliary instruments and adaptable to evolving research needs. Measurement configurations can include parallel fluidic channels and multiple optical wavelengths to expand analytical capabilities.
Specifications
Measurement technique : Multi-Parametric Surface Plasmon Resonance (MP-SPR)
Angular SPR range : 40° – 78°
Fluidic channels : 2 parallel channels
Optical wavelengths : Up to 4 per channel (optional)
Pump : Integrated peristaltic pump
Temperature control : 15 °C – 45 °C
Software : MP-SPR Navi™ Control & DataViewer (basic)
Add-ons : Electrochemistry, high resistance, live cell, gas cells, fluorescence modules
Design : Open modular platform
Application
Real-time biomolecular interaction analysis—study affinity and kinetics without labeling.
Layer property characterization—measure thickness and refractive index from Å to microns.
Biomaterials and nanoparticles research—analyze adsorption, binding, and material properties.
Biosensor development and optimization.
Teaching and educational demonstrations due to its open modular design.