APPLICATIONS & PROCESSES

1. BIOMEDICAL RESEARCH

   Cryogenic boxes play a pivotal role in biomedical research, facilitating the long-term storage of biological samples for studies related to genetics, molecular biology, and drug discovery. These boxes are commonly used in biobanks, research laboratories, and pharmaceutical companies to store samples such as DNA, RNA, proteins, and cell lines. By maintaining samples at extremely low temperatures, cryogenic boxes ensure their stability and integrity, preserving their viability for future experiments and analyses.

   
2. CLINICAL LABORATORIES

   Cryogenic boxes are particularly important in the field of assisted reproductive technology (ART), where they are used to store cryopreserved gametes (sperm and oocytes) and embryos for in vitro fertilization (IVF) procedures. By maintaining stable temperatures, these boxes help in enabling successful outcomes in infertility treatments and reproductive medicine. Additionally, these boxes find application in the storage of patient samples, such as blood, plasma, and serum.

   
3. PHARMACEUTICAL INDUSTRY

   Within the pharmaceutical industry, cryogenic boxes are utilized for the storage of drug compounds, formulations and biopharmaceuticals. The ultra-low temperatures maintained by these boxes help preserve the stability and efficacy of pharmaceutical products, ensuring their integrity throughout the manufacturing, storage, and distribution processes.

   
4. GENOMICS & PROTEOMICS

   Cryogenic boxes play a vital role in genomics and proteomics research, where the storage of nucleic acids, proteins, and other biomolecules is essential. These boxes enable researchers to maintain the stability of samples, such as DNA, RNA, and enzymes, facilitating various molecular biology techniques, including PCR, sequencing, and protein analysis.

   
5. CRYOPRESERVATION & BIOBANKING

   Cryogenic boxes are instrumental in cryopreservation and biobanking applications, where samples are stored at ultra-low temperatures for extended periods. These boxes are used to store a wide range of biological materials, including stem cells, tissue cultures, and gametes, preserving their viability and functionality for future use in research, regenerative medicine, and transplantation.

   
6. AGRICULTURE

   In the agriculture industry, cryogenic boxes find application in the preservation of seeds, plant tissues and agricultural products. By storing samples at cryogenic temperatures, these boxes help maintain the genetic diversity of plant species, safeguarding valuable genetic resources for crop breeding, research and conservation efforts.

   
7. FOOD & BEVERAGE INDUSTRY

   These boxes find applications in the storage and transportation of perishable food products, including frozen foods, seafood, meats, and dairy products. Likely, these are equipped with insulation materials and temperature monitoring devices to maintain the desired cold chain conditions during storage and distribution. By minimizing ice crystal formation and oxidative reactions, cryogenic freezing ensures the retention of food quality and prolongs shelf life, meeting consumer demands for fresh and high-quality food products.

   
8. MATERIALS SCIENCE & ENGINEERING

   These boxes help in enabling the storage of metal alloys, polymers, and other materials at low temperatures. This facilitates the study of their properties and behavior, essential for developing advanced materials used in aerospace, electronics, and energy storage applications. Moreover, in superconductivity research, where materials exhibit zero electrical resistance at ultra-low temperatures, cryogenic boxes are indispensable. They support the development of technologies like magnetic resonance imaging (MRI), particle accelerators, and magnetic levitation (maglev) trains by providing a stable cryogenic environment. These efforts aim to discover new superconducting materials and enhance their performance for practical applications.