What are the common plastic supplies in the laboratory?
There are many types of plastic supplies commonly used in laboratories. Each consumable carries an important task in laboratory research and plays an indispensable role in the accuracy and reliability of experimental results. Below, I will introduce you to some common
laboratory plastic supplies and their important functions in detail, while discussing their materials, characteristics and selection considerations to increase the depth and credibility of the article.
First of all, as one of the most commonly used plastic supplies in the laboratory, the importance of pipette tips is self-evident. Suction heads are mainly used for the suction, transfer and distribution of liquids, especially playing a key role in the operation of micro-liquids. To ensure the accuracy of experimental results, tips need to have excellent chemical stability and precise liquid pickup capabilities. Therefore, when selecting a tip, we need to consider factors such as its material, size, and accuracy to ensure that it can meet the specific needs of the experiment.
Secondly, centrifuge tubes are essential consumables for centrifugal separation of samples in the laboratory. Through centrifugation, centrifuge tubes can separate solid particles or liquid layers of different densities in the liquid, thereby facilitating subsequent experimental operations. Centrifuge tubes are usually made of polyethylene (PE) or polypropylene (PP). These materials have good chemical stability and mechanical strength, ensuring safety and reliability during the centrifugation process.
Furthermore, PCR plates play a crucial role in PCR experiments. The compact design of the PCR plate enables the processing of multiple samples simultaneously, thereby improving experimental efficiency. In order to ensure the accuracy and reliability of PCR experiments, PCR plates need to have good thermal conductivity and chemical stability. Therefore, when selecting a PCR plate, we should pay attention to parameters such as its material, surface treatment, and thermal conductivity properties to ensure that it can meet the high standards of PCR experiments.
Cell culture dishes/plates/bottles are key consumables in cell culture experiments. These consumables provide a suitable growth environment for cells and help them reproduce and differentiate. Cell culture dishes/plates/bottles are usually made of polystyrene (PS) or polypropylene (PP). These materials have good transparency and biocompatibility, making it easy to observe cell growth. At the same time, in order to ensure the quality of cell growth, we also need to pay attention to the surface treatment, sterility and gas permeability of the culture dishes/plates/bottles.
Finally, cryovials are essential consumables for cryogenic preservation of cells or biological samples in the laboratory. Cryotubes have good sealing and low-temperature resistance, which can ensure the stability and activity of samples in low-temperature environments. When selecting a cryopreservation tube, we should pay attention to parameters such as its material, sealing performance, and low-temperature resistance to ensure the safety and reliability of the sample during storage.
To sum up, there are many types of plastic supplies commonly used in laboratories, and each consumable plays an indispensable role in the experimental process. In order to ensure the accuracy and reliability of experimental results, we need to fully consider their materials, characteristics and performance parameters when selecting these consumables.