Could your lab use a more reliable and cost effective solution to sample preparation?
Traditional air displacement pipettes are susceptible to variations in atmospheric pressure, viscosity, vapor pressure, etc. Class A glassware is labour intensive and wasteful. The MICROLAB 600 is the answer to these problems
Positive Displacement vs. Air Displacement
The MICROLAB 600 is completely primed with liquid making it a positive displacement system. The liquid is not compressible, so each time the syringe aspirates or dispenses, the liquid is accurately measured. Air displacement systems trap compressible air in the fluid path. When liquid is moved this air is compressed, causing results that vary with atmospheric conditions, sample viscosity, and the operator's technique.
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How does a Diluter work?
The MICROLAB 600's Dual Syringe Diluter configuration uses two syringes to create up to a 1:50,000 dilution in a single step, drastically reducing preparation time and wasted buffer. The diluent washes the tubing between each sample, minimizing carryover. |
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Innovative and Flexible
Traditionally with liquid handling instruments you would have to choose between Dispensers or Diluters, not so with the MICROLAB 600 series which includes innovative and flexible valve technology that offers all functions from the same instrument. The MICROLAB 600 series incorporates the new Universal Valves which are used on both the Single Syringe and Dual Syringe Instruments. Simply by using the Cross Tube and Valve Plugs, the instruments offer Diluter, Dispenser and Continuous Flow functionality.
You have essentially 2 instruments in one, supporting any application. |
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The MICROLAB 600 vs. Class A Glassware
In comparison with volumetric glassware, the MICROLAB® 600 provides extraordinary cost savings and sample preparation time reductions. Its accuracy tolerances far exceed those of volumetric flasks, graduated cylinders, measuring pipettes, and burettes. The precision of the ML600 meets or exceeds that of Class A glassware, especially when operator imprecision is considered. |
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