Surface Treatment Processes of Cell Culture Dishes

However, it is the surface treatment processes that truly enhance their indispensability in the field of cell research.

Cell culture dishes, as indispensable tools in biomedical laboratories, play a crucial role in cell culture and research. However, it is the surface treatment processes that truly enhance their indispensability in the field of cell research.

Cell culture dishes are typically made of polystyrene (PS) material, known for its excellent transparency and biocompatibility, making it ideal for cell culture and experimental procedures. However, the surface of pure PS material does not possess ideal cell adhesion properties, necessitating surface treatment processes to improve its performance.

Currently, one of the widely used surface treatment processes is vacuum plasma surface treatment technology. This technology applies a high-frequency electric field to gas or liquid samples exposed to plasma in a vacuum environment, thereby altering the surface's chemical properties and structure. For cell culture dishes, after undergoing vacuum plasma surface treatment, a series of chemical reactions occur on the surface, making it more hydrophilic and uniform, thus enhancing cell adhesion and growth.

In conclusion, the surface treatment processes of cell culture dishes are an essential aspect of cell research, continuously advancing to provide scientists with higher-quality experimental conditions and data reliability, thereby driving the development and progress of the field of cell medicine.