Titlebook: Handbook of Photonics for Biomedical Engineering; Aaron Ho-Pui Ho,Donghyun Kim,Michael G. Somekh Reference work 2017 Springer Science+Busi

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Photonic Crystal Fiber-Based Biosensorsprovide. Owing to their unique geometric structure and light-guiding properties, PCFs show an outstanding potential for microliter- or even nanoliter-volume biosensing purposes. In this chapter we briefly review applications of PCFs for developing compact and robust biosensors. This research subject

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Lab-on-a-Chip Device and System for Point-of-Care Applicationsapter, the advancement and key accomplishments of LOC devices that utilize optics as means to detect biomedical signals are discussed. The topics being covered include optofluidic waveguide designs, detection techniques, and various optofluidic LOC systems and experimental demonstration. Limited by

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SPR Biosensorsittivities of opposite signs. When the orientation of the electric field vector of an incident light matches the movement of free electrons in the metal as restricted by the boundary conditions associated with some material and structural parameters, surface plasma waves (SPW) can be excited, and co

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Highly Sensitive Sensing with High-, Whispering Gallery Microcavitiesd as a promising platform for highly sensitive biosensing and nanoparticle detection. In a WGM microcavity, light recirculation dramatically enhances the interaction strength between the cavity mode field and the analytes. For practical applications of biosensors, increasing the sensing sensitivity,

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Exploiting Complex Media for Biomedical Applicationsical tissues exhibiting optical turbidity have posed limitations on the imaging depth and energy transmission. However, recent advances in wavefront-sensing and wavefront-shaping technologies have opened the door to imaging and controlling wave propagation through a complex scattering medium. In thi

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