The design of Filtered Pipette Tips mainly reduces liquid residue through the following aspects, which is significantly helpful in improving pipetting accuracy:
Unique design and raw materials:
Filtered Pipette Tips use unique designs and special raw materials, such as imported high-quality polypropylene. These materials can reduce the adsorption force of liquid on the inner wall of the tip, thereby reducing liquid residue.
Low adsorption surface:
The tip has a low adsorption surface, which means that during the pipetting process, the liquid is more easily sucked up and discharged completely, reducing the amount of liquid remaining in the tip.
Design with filter element:
The design of the filter element can effectively reduce aerosol pollution and filter particles in the air, which also helps reduce impurities and bubbles in the liquid, thereby improving pipetting accuracy.
Smooth interior surface:
Filtered Pipette Tips have a smooth internal surface, which further reduces liquid residue during pipetting. The smooth surface helps liquid flow more smoothly and avoids liquid residue caused by rough surfaces.
Tick mark design:
Some Filtered Pipette Tips have a graduated design, which provides a reference for accurate pipetting. Users can more accurately judge the volume of liquid based on the scale line, reducing human errors.
Reducing liquid residue helps improve pipetting accuracy mainly in the following aspects:
Improved pipetting accuracy: Reducing liquid residue means that the volume pipetted each time is more accurate, helping to improve the accuracy and repeatability of experiments.
Reduce the risk of cross-contamination: Liquid residues can to cross-contamination between different samples. By reducing carryover, this risk can be reduced and the accuracy of experimental results ensured.
Saving reagents: Reducing liquid residue also means saving the use of reagents, which has positive significance for reducing experimental costs and improving experimental efficiency.
In summary, Filtered Pipette Tips effectively reduce liquid residue through its unique design and raw materials, low adsorption surface, filter element design, smooth internal surface, and scale design, thereby significantly improving pipetting efficiency. Liquid precision and accuracy.