Insplorion's product offer consists of complete research instruments for successful NanoPlasmonic Sensing experiments in controlled gas or liquid flow chambers. Furthermore, Insplorion offers NPS Sensor Chips with a range of surface chemistry and our advanced software (Insplorer®) for control and real-time analysis of spectroscopic data.
Combine optical spectroscopy with QCM-D. Simultaneous real time measurements with Nanoplasmonic Spectroscopy (NPS) and Quartz Crystal Microbalance with Dissipation monitoring (QCM-D).
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The Insplorion XNano instrument provides the opportunity to study processes in/on nanomaterials and thin films in situ and in real-time under relevant temperature and pressure conditions.
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Insplorion’s sensor chips feature the unique NPS nanoarchitecture, which guarantees excellent performance at temperatures up to 600°C and in challenging chemical environments.
Insplorion has the experience to custom-make versions of our instruments using our NPS technology to suit specific customer needs. Don't hesitate to ask us if we have a solution to your challenge. The Insplorion X1 instrument is an example developed to study processes in thin polymer films and materials relevant to catalytis.
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By using Insplorion's instrument, we can offer our customers:
To monitor processes in/on nanoparticles and thin films in situ and in real time
The instrument allows for monitoring of processes in the nanoscale, occurring for example in/on nanoparticles, nanostructures and on thin films. Real-time measurements can be made in-situ (i.e. on a functional nanostructure) with a temporal resolution of ms.
To study a large variety of processes
Processes that can be investigated include adsorption/desorption, phase transitions, diffusion in porous films, light trigger, temp change triggers, volume/shape changes, reduction/oxidation, temperature changes (“optical nanocalorimetry”), etc.
Flexible choice of substrate material and surface chemistry
Any non-metallic material that can be deposited as a thin compact or porous film onto our sensor chips can be used as support for the process to be studied.
Practically relevant temperature and pressure
For XNano, temp can be varied from room temp to 80 C, and for the X1 in the gas phase up to 600 C. NPS as such has exceptionally low temp sensitivity allowing for ramping and studies of temp triggered processes.
Complete system includes hardware, software, hands on training and support.
Insplorion’s software provides user-friendly measurement control and programming as well as analysis of up to six measurement variables for each of the two sample positions simultaneously and in real-time.