Principle and Application of Biophotonic Chips

Abstract

Contemporarily, biophotonic chips have garnered significant attention from researchers due to their strong immunity to electromagnetic interference, high sensitivity, rapid response rate, and relatively simple structural design. They have found extensive applications in fields such as medical diagnosis, food quality and safety testing, environmental monitoring, and national security. This article provides an overview of the development history, fundamental principles, applications, and fabrication processes of biophotonic chips. The earliest development of biophotonic chips can be traced back to the end of the 20th century. The basic principle involves the interaction of light, utilizing technologies like photonic crystals, surface plasmon resonance, and fluorescence spectroscopy to achieve the detection and analysis of biological molecules. The article briefly describes the fabrication process of biophotonic chips, which involves intricate techniques such as photolithography and electron beam exposure. Furthermore, it analyzes and discusses their widespread applications in medical diagnosis, drug development, and environmental monitoring, among other fields. Lastly, the study evaluates the key challenges present in biophotonic chips and provides an analysis of their future development prospects.