The MP-SPR Navi™ 210A VASA offers fully automated material characterization, providing precise measurements of interactions and layer properties. This system is tailored for applications including biomaterials, biosensors, layers and coatings, molecular interactions, biocompatibility, and nanoparticle analysis. Its automation streamlines workflows, ensuring consistent and reliable data acquisition. The VASA's advanced technology enables detailed insights into surface interactions and material characteristics, crucial for research and development. Designed for ease of use and high throughput, the 210A VASA is an ideal solution for laboratories demanding accuracy and efficiency in material analysis.
Features:
- Automated liquid handling of up to 6 different samples for unattended runs
- Software switch for serial and parallel injections in 2 fluidic channels
- Partial loop injections enabling minimized sample consumption
- Exceptionally wide angular range 40˚ - 78˚ enables measurements of small organic molecules and large proteins but also metallic nanoparticles and cells. One scan encompasses both environments: gas and liquid and enables in-line bulk effect separation providing PureKinetics™
- Two independent wavelength measurements in each fluidic channel, enabling detection of thickness and refractive index or conformation changes
- Optionally the instrument can be equipped with up to 4 different wavelengths measured from each liquid channel for optimal data for layer characterization
- Controlled buffer flow conditions with precise syringe pumps and integrated degasser
- Software package for convenient control of the instrument and easy analysis of the results. 210A VASA comes with MP-SPR Navi™ LayerSolver to determine thickness and RI from multiple wavelength measurements. TraceDrawer™ – a powerful software for determination of affinity and kinetic constants is optional
- MP-SPR Navi™ instruments utilize optical RI matching elastomer and therefore, sensors are very easy to exchange and remove for further analysis with other methods such as AFM or microscopy
- Open design enables convenient access to the easily removable flow cell, as well as to tubing, pump and injection valves
- Complement with electrochemistry, high chemical resistant and gas flow cells as well as fluorescence setup provides combined or validation measurements