Ultravap™ Mistral
Ultravap™ Mistral Fully Robot Compatible Blowdown Evaporator
Small Molecule
This item has a beautiful touch screen display and mechanics that have not failed us in over 10 years. The platform is the only one on the market that can automatically rise and adjust to the level of solvent you have in your well plate.
Review Date: 5 Mar 2018 | Porvair Sciences Ltd
Lipidomics
Our Ultravap is linked to a robot and is responsible for the drying down of samples in organic solvent prior to mass spectrometry analysis. It performs this far more efficiently than our traditional heat block with piped Nitrogen gas, typically drying samples in half the time (20 minutes rather than 40) due to the application of heated Nitrogen gas rather than heating the sample. Thus it is ideal for high through put sample processing. The Ultravap's touch screen interface is very clear and easy to use, although we control ours using the robot software.
Review Date: 21 Oct 2015 | Porvair Sciences Ltd
The Ultravap® Mistral blowdown evaporator has been designed with a flat front profile and platform shuttle enabling greater interfacing with liquid-handling robots for increased automation efficiency. Reproducible sample throughput is achieved by recent advancements in gas injection technology to deliver heated gas directly and consistently in each well and tube. The Ultravap® Mistral is the most sophisticated automation-friendly model from Porvair Sciences, offering significant throughput advantages to laboratories looking to optimise sample preparation.
Features:
- Automation-Friendly
- Reproducible Evaporation: Advanced head technology for consistent hot gas injection (up to 80°C) in each tube and well
- High Sample Throughput: Choice of 12-, 24-, 48-, 96- and 384 needle heads
- Clean Concentration System: Built to eliminate risk of cross-contamination.
- Ideal for sensitive samples: Bulk of sample remains at ambient, only the surface is heated
- Intuitive Design: Slim and compact bench-friendly design with built-in LED lights for greater sample visibility