HPLC Vial Storage Box 1HB2381
The HPLC Vial Storage Box is made of high-strength polycarbonate (PC) material and can withstand a temperature range from -196 ℃ to 121℃. It can stably store biological samples in a liquid nitrogen environment and an ultra-low temperature refrigerator, ensuring the safety and integrity of the samples under extremely low temperature conditions.
| Height |
3.75 inches |
| Partition |
81 grids |
| External dimensions |
133*133*96mm |
| Color |
Color mixing,White, red, blue, yellow, green |
| Packaging specification |
5 pieces per pack,4 packs per box |
Features:
1.Medical-grade polycarbonate material.
2. It is available in 5X5 (25 compartments), 9X9 (81 compartments), and 10X10 (100 compartments), suitable for 0.5ml, 1.5ml, 2.0ml, and 5.0ml cryotubes
3. The corner cutting design enables the box lid to be placed quickly and accurately, avoiding incorrect or uneven placement of the box lid and ensuring the sealing performance of the freezer box.
4. The box body is pre-set with positioning marks. The unique gap and line design facilitate rapid cooling
5. Five color options are provided: white, yellow, green, blue and red.
6.PC material has excellent transparency. Both the box body and the lid of the cryopreservation box can clearly show the cryopreservation tubes and sample conditions stored inside. Samples can be quickly identified and located without opening the box.
7. The 7.375-inch design is suitable for the shelf systems of the vast majority of standard laboratory freezers, ultra-low temperature freezers (-80°C), and liquid nitrogen tanks.
8. It has excellent low-temperature resistance (able to withstand -196°C to 121°C), with a transparent lid that allows for visual or scanning device identification of internal samples without opening the box.
9. The stackable design ensures stability when stacked vertically, enabling the construction of multi-layer storage systems in limited spaces.
The ELGIR MED production workshop is designed in accordance with high-grade cleanliness standards, effectively controlling contaminants such as particles and microorganisms in the production environment, and meeting the production demands of laboratory consumables with extremely high requirements for a sterile and dust-free environment, such as the production of products like cell culture dishes and PCR plates.
