TY - PAT
T1 - Biosensors with porous dielectric surface for fluorescence enhancement and methods of manufacture
AU - Zhang, Wei (Mseb)
AU - Cunningham, Brian T
N1 - STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT This invention was made, at least in part, with United States governmental support awarded by the National Science Foundation under NSF BES 0427657. The United States Government has certain rights in this invention.
PY - 2011/1/11
Y1 - 2011/1/11
N2 - Biosensors are disclosed which include a surface for binding to sample molecule to the biosensor in the form of a porous, thin film of dielectric material, e.g., TiO2. In one example the porous, thin film is in the form of a multitude of sub-micron sized rod-like structures (“nanorods”) projecting therefrom. In one embodiment, the biosensor is in the form of a photonic crystal biosensor. The approach of depositing a thin film of dielectric nanorods may be applied to any enhanced fluorescence biosensor surface structure, including 1-dimensional photonic crystals, 2-dimensional photonic crystals, 3-dimensional photonic crystals, surface plasmon resonance surfaces, planar waveguides, and grating-coupled waveguides. The dielectric nanorod structures can be fabricated on the surface of a biosensor by the glancing angle deposition technique (GLAD).
AB - Biosensors are disclosed which include a surface for binding to sample molecule to the biosensor in the form of a porous, thin film of dielectric material, e.g., TiO2. In one example the porous, thin film is in the form of a multitude of sub-micron sized rod-like structures (“nanorods”) projecting therefrom. In one embodiment, the biosensor is in the form of a photonic crystal biosensor. The approach of depositing a thin film of dielectric nanorods may be applied to any enhanced fluorescence biosensor surface structure, including 1-dimensional photonic crystals, 2-dimensional photonic crystals, 3-dimensional photonic crystals, surface plasmon resonance surfaces, planar waveguides, and grating-coupled waveguides. The dielectric nanorod structures can be fabricated on the surface of a biosensor by the glancing angle deposition technique (GLAD).
M3 - Patent
M1 - 7869032
Y2 - 2008/03/24
ER -