Photonic crystals: a versatile platform for optics-based biological detection

Abstract: Photonic crystal surfaces that can be fabricated inexpensively over large surface areas can be designed to produce optical resonances for any desired wavelength in the optical spectrum from ultraviolet to infrared. Label-free biosensing is obtained by measuring shifts in the resonant wavelength as biomaterial deposits on the photonic crystal, while the intensified electric fields that occur due to coupling of illumination at the resonant wavelength may be used to more effectively excite fluorescence or Raman s… Show more

“…have opened new exciting perspectives for SERS with dielectric substrates. The parallel research on colloidal photonic crystals, metamaterials, and general light-trapping architectures, which offer manifold opportunities to concentrate and manipulate light, could be a further, decisive support for this renaissance.…”

Enhanced Raman Scattering with Dielectrics

“…have opened new exciting perspectives for SERS with dielectric substrates. The parallel research on colloidal photonic crystals, metamaterials, and general light-trapping architectures, which offer manifold opportunities to concentrate and manipulate light, could be a further, decisive support for this renaissance.…”

Enhanced Raman Scattering with Dielectrics