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Correctly reading the volume on a pipette depends on multiple factors, including proper pipetting technique. Here are some helpful tips to ensure you're using proper techniques in the lab.
To ensure the accuracy of your results, you need to opt between using a positive-displacement pipette vs air-displacement pipette. Here’s what you should know.
Discover the differences between OEM and value-added partnerships and the many ways your company can benefit from VAP relationships.
Here's a quick guide on how magnetic beads are used for RNA and DNA extraction and how it plays an important role in today's world.
To maintain accuracy and repeatability, you must service and maintain your instruments. Here’s what you should know about pipette replacement parts.
Original equipment manufacturers (OEM) develop and sell products that ensure reliability and reproducibility. Here are reasons to partner with OEMs.
With so many models available, choosing the right pipettes for your lab will depend on the application. Here's how to choose a pipette for your experiment.
Researchers are rushing to identify, target, and analyze peptide functions for drug development. Here is what you should know about peptide purification.
To keep up with today’s molecular testing demands, labs need access to smart and connected liquid handling tools. Here are four key components to consider.
Liquid properties such as viscosity, volatility, surface tension, or temperature can adversely affect the performance of your pipettes by having an impact on the volume of the air cushion inside the pipette. Additionally, air-displacement pipettes run a higher risk cross-contamination with biological samples and carryover of hazardous or radioactive liquids. For these situations, positive-displacement pipettes, such as MICROMAN® E, are a better tool for the job.