In the fields of biomedicine and environmental protection, precision detection technology has always been a core demand for scientific research and industrial applications. In recent years, silicone-based biosensors have become a new frontier in precision detection technology due to their high sensitivity, rapid response, and excellent stability. This article will explore the working principles, application fields, and future development trends of silicone-based biosensors.

Silicone-based biosensors are a new type of sensor that combines silicone materials with biological recognition elements (such as enzymes, antibodies, or DNA). Silicone materials, with their excellent chemical stability, biocompatibility, and tunable physicochemical properties, have become ideal carriers for biosensors. By immobilizing biological recognition elements on silicone substrates, the sensor can specifically recognize target molecules and convert them into detectable signals (such as electrical or optical signals).

In the field of medical diagnostics, silicone-based biosensors are widely used in blood glucose monitoring, cancer marker detection, and pathogen detection. For example, in blood glucose monitoring, silicone-based sensors can achieve real-time monitoring of blood glucose levels by immobilizing glucose oxidase, providing a convenient self-management tool for diabetic patients. In cancer detection, silicone-based sensors can specifically recognize protein markers secreted by cancer cells, enabling early diagnosis of cancer.


In summary, silicone-based biosensors, with their unique advantages, are driving the development of precision detection technology and bringing new breakthroughs to fields such as healthcare and environmental protection.


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