ก pipette is a laboratory instrument used by scientists, lab technicians, chemists, and other researchers to accurately measure and transfer small, precise volumes of liquid samples, typically ranging from 0.1 microliters (ไมโครลิตร) จนถึง 10 milliliters (มล).
Using pipettes properly is extremely important for many experiments and laboratory protocols that require precise liquid measurements, including medical tests, chemical reactions, pharmaceutical research, พีซีอาร์, and cell culture procedures. Errors in liquid measurement can significantly impact experimental outcomes and reproducibility.
A pipette works by aspirating or sucking liquid into a detachable tip, and then dispensing or ejecting the liquid into another container or tube. There are two main types of pipettes based on their working principle:
The most common variety, air displacement pipettes use air to aspirate and dispense the desired liquid volume. A measured amount of air is displaced between a piston and the liquid inside the pipette tip.
Here, the plunger or piston directly interacts with the liquid that fills the pipette tip during aspiration. The liquid itself moves in and out of the tip. Positive displacement pipettes are ideal for viscous liquids like oils and samples that can evaporate easily.
While pipette designs can vary slightly between models, they typically consist of:
Pipette tips are elongated, detachable plastic cones that fit onto the end of a pipette. They come in different materials like polypropylene and sizes optimized for different volume ranges.
Choosing tips that properly fit pipettes is necessary to ensure experimental accuracy and reproducibility. An ill-fitting tip can impact the precision of liquid aspiration and dispensing.
Importantly, using a new, sterile pipette tip for every liquid transfer helps prevent sample contamination between solutions. After use, tips are discarded to avoid carryover between samples.
A calibrated pipette refers to a pipette that has undergone routine testing to ensure that the volumes of liquid it dispenses match the volume settings or dial on the pipette.
This involves checking parameters like the precision/random error and accuracy/systematic error associated with volume dispensing across the operating range of a pipette.
Most pipettes allow for calibration or readjustments to improve their accuracy. Using an uncalibrated pipette can negatively impact experimental outcomes in situations like:
ดังนั้น, proper calibration as per the manufacturer’s guidelines helps maintain pipette health and performance.
As a general rule of thumb, pipettes should be calibrated every 3-6 months to maintain optimal performance. อย่างไรก็ตาม, the frequency depends on usage levels:
ตามหลักการแล้ว, calibration should also be carried out:
The standard procedure to calibrate a pipette involves gravimetric testing. This uses specialized weighing scales to compare the weight of dispensed liquid to the pipette settings. The steps include:
Following calibration, label pipettes with calibration dates and perform routine checks between calibrations. Keep detailed logs of any calibration or maintenance issues.
Specialized equipment like calibrated reference pipettes, analytical balances, precision thermometers, and gravimetric kits facilitate in-lab pipette calibration procedures, which help save time and cost associated with outsourcing calibration.
Investing in a certified servicing company to annually inspect and calibrate pipettes also helps meet quality compliance requirements.
Several common issues contribute towards pipette inaccuracy and imprecision:
Air bubbles interfere with proper liquid measurement using pipettes. Strategies to avoid introducing bubbles include:
Choose pipette tips that:
The right tips play a major role in optimizing pipetting workflows.
Pipettes are essential tools in science labs. Many experiments need careful liquid measuring using pipettes. Learning to use pipettes takes time, like learning a musical instrument. At first, focus on doing basic things right like checking the pipette is calibrated, using good posture and hand position, choosing the right tip type, and Learning techniques for thick liquids.
With practice, using pipettes becomes easy. You gain the skills to quickly and accurately move tiny liquid amounts without spills or errors. Expert pipetting helps scientists do great research. Medical tests, new medicines, and industrial chemistry all depend on pipettes.
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