The 96-well round-bottom deep-well plate is based on the external dimensions of ordinary microplates, and on the premise of keeping the length and width in compliance with the specifications, the depth of the wells is increased, thereby increasing the volume of each well. To suit its specific range of applications, a laboratory plate was produced by changing the manufacturing materials (polypropylene (PP) and polystyrene (PS) on the one hand and by improving the surface treatment process on the other hand.
The 96-well round-bottom deep-well plate is made of polypropylene, which has high heat resistance and can be used in the temperature range of -196°C to +121°C. Sterilized, free of endotoxin and cytotoxin, DNase, RNase and human DNA. The tube body has a white scratch resistant writing area. Ideal for preserving cell cultures, tissue samples, microbial samples (such as viruses, bacteria, yeast, molds, and spores), human and animal samples (such as plasma, serum, and antibodies), DNA, RNA, and protein samples.
96-well round-bottom deep-well plate application range:
1. Sample storage:
It can replace the conventional 1.5ml centrifuge tube to store samples, and it can be placed neatly during storage, saving space, with large storage capacity, and can withstand -80 ℃ refrigerator. Therefore, it is also called a storage block.
2. Sampling operation:
Commonly used in various autosamplers, it can be directly placed in the sample chamber of the autosampler for injection. Compared with the traditional sample injection vials, it can not only double the number of samples in the sample chamber, but also realize the sample storage in the sample chamber. The 96-well plate can be directly injected after processing, eliminating the tedious work of drawing samples back and forth, placing samples, covering lids, inserting cannulas, and washing bottles.
3. Processing samples:
It can be combined with a discharge gun, high-throughput automatic liquid manipulation instruments and software to achieve high-throughput operations on biological samples, such as protein precipitation and liquid-liquid extraction. Greatly improve the efficiency of sample processing. The PP material can withstand high temperature and high pressure sterilization at 121°C.
