Biomolecular sensor system utilizing a transverse propagation wave of surface plasmon resonance (SPR)
A biomolecular sensor system utilizing a transverse propagation wave of surface plasmon
resonance (SPR) is described. The system comprises: a substrate; a dielectric layer, having …
resonance (SPR) is described. The system comprises: a substrate; a dielectric layer, having …
High reflectivity integrating cavity and optical amplification device
Disclosed is a high reflectivity integrating cavity and device to amplify and detect
luminescent emissions produced by small concentrations of materials to be analyzed. Femto …
luminescent emissions produced by small concentrations of materials to be analyzed. Femto …
Plasmon resonance structure with metal nanoparticle layers
T Saito - US Patent 7,486,400, 2009 - Google Patents
The electric-field enhancement effect by plasmon resonance is improved by favorably
controlling the plasmon resonances in the thickness direction and in the direction orthogonal …
controlling the plasmon resonances in the thickness direction and in the direction orthogonal …
Biosensing apparatus and system
LK Chau, WH Hsieh, WT Hsu - US Patent 8,068,995, 2011 - Google Patents
A bio-sensing system comprises a light source, a bio-sensing apparatus, a detecting
platform, and a processing unit. A bio-sensing apparatus further comprising a substrate, a …
platform, and a processing unit. A bio-sensing apparatus further comprising a substrate, a …
High sensitivity optical detection by temperature independent differential polarization surface plasmon resonance
P Melman - US Patent App. 11/301,448, 2006 - Google Patents
US20060215165A1 - High sensitivity optical detection by temperature independent
differential polarization surface plasmon resonance - Google Patents US20060215165A1 …
differential polarization surface plasmon resonance - Google Patents US20060215165A1 …
Systems and methods for analyzing polarized light scattered from a sample
G Videen - US Patent 7,440,102, 2008 - Google Patents
4,154,529 A 5/1979 Dyott 4,492,467 A l/l985 Drain et a1. 5,063,301 A 11/1991 Turkevichet
al. 5,294,806 A 3/1994 Batchelder et al. 5,561,515 A 10/1996 Hairston etal. 5,627,642 A …
al. 5,294,806 A 3/1994 Batchelder et al. 5,561,515 A 10/1996 Hairston etal. 5,627,642 A …
Surface plasmon resonance sensing system and method thereof
LK Chau, WT Hsu, SF Cheng - US Patent 7,511,820, 2009 - Google Patents
A surface plasmon resonance sensing system and method thereof are disclosed. The
system comprises an incident light source, a sensing element, a noble metal nanoparticle …
system comprises an incident light source, a sensing element, a noble metal nanoparticle …
Apparatus and method for detecting surface plasmon resonance
JY Lee, HC Shih, CT Hong - US Patent 7,663,758, 2010 - Google Patents
An apparatus for detecting surface plasmon resonance (SPR) comprises a light source, a
light-coupling unit, a phase-resolving module, and a data-processing unit. The light source …
light-coupling unit, a phase-resolving module, and a data-processing unit. The light source …
Optical signal processor
An input/output, a wavelength multiplexer/demultiplexer, and a spatial light modulator are
provided. The input/output is configured by an optical waveguide into which multiplex light …
provided. The input/output is configured by an optical waveguide into which multiplex light …
Equilibrium plasmonic analyte sensing apparatus and methods
J James, JS Crosby - US Patent 11,898,957, 2024 - Google Patents
Apparatus and methods are provided for quantitative detection of mercury vapor in gas
samples using a film of nanoparticles. The localized surface plasmon resonance (LSPR) of …
samples using a film of nanoparticles. The localized surface plasmon resonance (LSPR) of …