INTEGRATED PLASMONICS CORPORATION Patent applications |
Patent application number | Title | Published |
20160033328 | AMBIENT LIGHT ASSISTED SPECTROSCOPY - A spectroscopic device, which may be a handheld spectroscopic light source, which uses ambient light as a primary broadband light source, but which may be supplemented with an auxiliary light source to supplement band regions which may be deficient in the broad band source. The spectroscopic device makes use of a number of parallel control channels to monitor for sufficient light and to compensate for variations in the input light levels. | 02-04-2016 |
20160025994 | SELF-ALIGNED SPATIAL FILTER - A spatial filter is made by forming a structure comprising a focusing element and an opaque surface, the opaque surface being disposed remotely from the focusing element in substantially the same plane as a focal plane of the focusing element; and by forming a pinhole in the opaque surface at or adjacent to a focal point of the focusing element by transmitting a substantially collimated laser beam through the focusing element so that a point optimally corresponding to the focal point is identified on the opaque surface and imperfection of the focusing element, if any, is reflected on the shape and position of the pinhole so formed. | 01-28-2016 |
20160018329 | OPTICAL DETECTION SYSTEM WITH TILTED SENSOR - A detection system includes a planar plasmonic element for analyzing an analyte, the plasmonic element having dielectric and metallic regions, the plasmonic element emitting light that carries detected information; and a planar two-dimensional image sensor positioned in non-parallel angled relationship with respect to a plane of the plasmonic element to enhance a spatial image resolution for the light that carries detected information with respect to at least a portion of the light. | 01-21-2016 |
20150377780 | PLASMONIC PROJECTED DIFFRACTION SENSOR - A device for detecting an analyte includes a light source emitting substantially monochromatic light; a two-dimensional diffraction element that interacts with the light from the light source, the diffraction element having one or more features that can generate plasmon waves upon receipt of the light from the light source, at least some of the features being configured to interact with the analyte; and a two-dimensional image sensor facing the diffraction element to receive diffracted light from the diffraction element so as to detect a diffraction pattern projected thereto and to measure a two-dimensional spatial change in the diffraction pattern that occurs as a result of the analyte interacting with the feature of the diffraction element. | 12-31-2015 |
20150308893 | PLASMONIC SPECTROSCOPIC SENSOR AND CUVETTE THEREFOR - A spectroscopic measurement system, which may utilize multiple plasmonic filters associated with a cuvette to monitor different wavelengths of light. The spectroscopic measurement system may measure absorbance and or fluorescence, and may have built-in low cost CMOS image sensor(s). Reagents and samples may be introduced to the cuvette from a fluidics manifold. Multiple sets of combined cuvettes, image sensors and plasmonic filters may utilize a single fluidics manifold for reagent and sample distribution. | 10-29-2015 |
20140176939 | MICROCUVETTE CARTRIDGE - A microcuvette cartridge for optical measurement of a specimen includes: a substrate having a recess on an upper surface thereof to receive a fluid specimen therein, the substrate having a plurality of cavities therein to receive the fluid specimen transported from the recess, the substrate further defining a plurality of channels communicating with the recess and with the plurality of cavities, respectively, to transport the fluid specimen from the recess to the plurality of cavities, said substrate further having one or more of windows at positions corresponding to the plurality of cavities, the windows being transparent to wavelength of light with which the optical measurement is to be carried out so as to allow the light to interact with the fluid specimen in the cavities; and a transport mechanism to promote and complete flows of the fluid specimen from the recess to the plurality of cavities through the plurality of channels. | 06-26-2014 |
20140045730 | INTEGRATED PLASMONIC SENSING DEVICE AND APPARATUS - An integrated plasmonic sensing device is monolithically integrated and provides marker-free detection (eliminating the need to use fluorescent or absorbing markers) and in-situ monitoring of conditions at each detection region. The integrated plasmonic sensing device includes a plasmonic backplane disposed on a monolithically integrated image sensor. One or more plasmonic scattering regions and one or more plasmonic via regions laterally offset from the plasmonic scattering regions are provided in the plasmonic sensing device. Guided plasmonic modes mediate power transfer through the plasmonic backplane to one or more underlying image sensor pixels. | 02-13-2014 |
20130148126 | INTEGRATED PLASMONIC NANOCAVITY SENSING DEVICE - An integrated plasmonic sensing device is described wherein the integrated device comprises: at least one optical source comprising a first conductive layer and a second conductive layer, and a optical active layer between at least part of said first and second conductive layers; at least one nanocavity extending through said first and second conductive layers and said optical active layer, wherein said optical source is configured to generate surface plasmon modes suitable for optically activating one or more resonances in said nanocavity; and, at least one optical detector comprising at least one detection region formed in said substrate in the vicinity of said nanocavity resonator, wherein said optical detector is configured to sense optically activated resonances in said nanocavity. | 06-13-2013 |
20130100454 | INTEGRATED PLASMONIC SENSING DEVICE AND APPARATUS - An integrated plasmonic sensing device is monolithically integrated and provides marker-free detection (eliminating the need to use fluorescent or absorbing markers) and in-situ monitoring of conditions at each detection region. The integrated plasmonic sensing device includes a plasmonic backplane disposed on a monolithically integrated image sensor. One or more plasmonic scattering regions and one or more plasmonic via regions laterally offset from the plasmonic scattering regions are provided in the plasmonic sensing device. Guided plasmonic modes mediate power transfer through the plasmonic backplane to one or more underlying image sensor pixels. | 04-25-2013 |
20120257204 | INTEGRATED PLASMONIC SENSING DEVICE AND APPARATUS - An integrated plasmonic sensing device is monolithically integrated and provides marker-free detection (eliminating the need to use fluorescent or absorbing markers) and in-situ monitoring of conditions at each detection region. The integrated plasmonic sensing device includes a plasmonic backplane disposed on a monolithically integrated image sensor. One or more plasmonic scattering regions and one or more plasmonic via regions laterally offset from the plasmonic scattering regions are provided in the plasmonic sensing device. Guided plasmonic modes mediate power transfer through the plasmonic backplane to one or more underlying image sensor pixels. | 10-11-2012 |