For optimal and economical usage of the existing storage room at -80°C, vessels should be stored in freezer boxes which fit exactly to the vessel dimensions. For sure, 2 mL vessels can be stored in boxes dedicated for 50 mL conical tubes. But this style is uneconomic as you waste a lot of storage space. Besides, removing microtubes out of the 120 mm deep boxes is quite uncomfortable. Nowadays, there are all kind of different box sizes available, fitting to all commonly used vessel types. Different inner grid variants provide a perfect fit to these formats: cryogenic tubes, microtubes, conical tubes 15 and 50 mL, and other laboratory vessels. Common size standard is “inch”, e.g. 2 in boxes for 53 mm microtubes. The footprint of the freezer boxes is by standard 133 mm x 133 mm.
Related metal racks are standardized for these footprints.
|2||53||1.5/ 2.0 mL Microtubes|
|2.5||64||5 mL microtubes|
|3||76||3 mL cryotubes|
|4||102||5 mL cryotubes|
|5||127||15/ 50 mL conical tubes|
In principle, there are just two materials used for freezer boxes: Either cardboard or plastic material. The cardboard material (mostly white surface) are cost-efficient but have a limited lifetime due to the humidity and even wetness during daily routine working at the freezer. As the cardboard material can be recycled, the sustainable factor is high.
In contrast to that, plastic boxes have a higher price but the boxes easily survive many years of usage due to their robustness. Besides, differently colored boxes support intuitive sample sorting (e.g. blue box for sample type A or user 1 versus orange boxes for sample type B or user 2).
There is a temperature delta of more than 100°C between the ambient temperature in the lab and the frozen samples. The thermodynamic tension on the material requires reinforcement of the boxes by plastic bracing as well as ventilation ports for larger freezer boxes as for 15/ 50 mL tubes conical for an even temperature adaption.
The labeling of boxes can be done directly on the surface, via adhesive labels, or via paper slip attached by transparent duct tape. Independent from handwritten, printed labels, or barcodes, a security layer of transparent duct tape might help against mechanical damage.
Printed labels (plain writing or barcode) are recommended to make reading as easy as possible for everyone else besides the author.
Number of samples
At the beginning of a research life, the number of samples resp. vessels is limited. The approach “all protein samples belong to the first box, the DNA samples belong to the second box, ...” fits. Over the time, the accumulation of samples exceeds the capacity of this sorting style.
A sorting system based on metal racks provides a systematic approach. Sample management for easy refinding of samples can be handled by dedicated databases.