An Antibody-Immobilized Silica Inverse Opal Nanostructure for Label-Free Optical Biosensors

Three-dimensional SiO(2)-based inverse opal (SiO(2)-IO) nanostructures were prepared for use as biosensors. SiO(2)-IO was fabricated by vertical deposition and calcination processes. Antibodies were immobilized on the surface of SiO(2)-IO using 3-aminopropyl trimethoxysilane (APTMS), a succinimidyl-[(N-maleimidopropionamido)-tetraethyleneglycol] ester (NHS-PEG(4)-maleimide) cross-linker, and protein G. The highly accessible surface and porous structure of SiO(2)-IO were beneficial for capturing influenza viruses on the antibody-immobilized surfaces. Moreover, as the binding leads to the redshift of the reflectance peak, the influenza virus could be detected by simply monitoring the change in the reflectance spectrum without labeling. SiO(2)-IO showed high sensitivity in the range of 10(3)–10(5) plaque forming unit (PFU) and high specificity to the influenza A (H1N1) virus. Due to its structural and optical properties, SiO(2)-IO is a promising material for the detection of the influenza virus. Our study provides a generalized sensing platform for biohazards as various sensing strategies can be employed through the surface functionalization of three-dimensional nanostructures.