Nowadays biological sensing is representing a very active area of research due to the many possible applications in environmental control, food testing, pharmaceutical screening, and genetic analysis. A particular need exists for miniature biosensors for the detection of proteins, DNA, toxins and, more generally, infectious agents. Several optical techniques have proven to be quite effective, and biophotonics is a continuously growing discipline. Here we provide a quick overview of the recent progresses in the development of optical biosensors based on resonant cavities constituted by dielectric microspheres, where light propagation occurs through whispering-gallery modes (WGMs). The effect of any perturbation to the optical resonance structure of a microsphere is such that a very high sensitivity can be achieved.
Microspherical resonators for biophotonic sensors
Calzolai;F Cosi;G Nunzi Conti;
2006
Abstract
Nowadays biological sensing is representing a very active area of research due to the many possible applications in environmental control, food testing, pharmaceutical screening, and genetic analysis. A particular need exists for miniature biosensors for the detection of proteins, DNA, toxins and, more generally, infectious agents. Several optical techniques have proven to be quite effective, and biophotonics is a continuously growing discipline. Here we provide a quick overview of the recent progresses in the development of optical biosensors based on resonant cavities constituted by dielectric microspheres, where light propagation occurs through whispering-gallery modes (WGMs). The effect of any perturbation to the optical resonance structure of a microsphere is such that a very high sensitivity can be achieved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.