Porvair evaporators are designed to remove the traditional laboratory ‘bottleneck’ of solvent evaporation from microplates prior to analysis or reconstitution in storage buffer. These evaporators give significant throughput advantages to laboratories looking to optimise microplate sample preparation productivity. Faster than centrifugal evaporation, significant increases in sample throughput are achieved through advanced evaporator head technology and an innovative manifold design, which directly injects heated nitrogen into each individual well of the microplate simultaneously. The evaporators have been designed to be simple to install, operate and maintain. Installation requires only connection to a gas supply or cylinder and mains electricity. Safety of operation is ensured as the CE marked compact units fit into all fume cupboards. Not suitable for high boiling solvents such as DMSO and water.
Both MiniVap® and MiniVap® Gemini may be operated with a supply of clean, dry compressed air in place of nitrogen, if the chemistry allows. An in-line gas filter must be used in this case
The ergonomic design, light weight and powerful motor of Porvair Sciences new Ultrajet Pipette controller gives you unrivalled ease of use and accurate control of aspirate and dispense volumes.
Vacuum manifolds are used to draw liquid through a filter or SPE plate into either a waste tray or a collection plate.
The MiniVap is purpose designed for low usage research and development departments where low numbers of individual plates or vials need drying.
Porvair nitrogen blow down evaporators have for many years been a central resource for sample preparation in the laboratory. The ability to safely and easily remove organic and chromatographic solvents from samples is vitally important.
The Ultravap Levante brings you many of the benefits associated with our flagship evaporator, the Ultravap Mistral, in an affordable, automation-ready package.
The Ultravap Mistral from Porvair Sciences is designed to remove the traditional laboratory ‘bottleneck’ of solvent evaporation from microplates.