Patent application number | Description | Published |
20110019186 | CLUSTERS OF MICRORESONATORS FOR CAVITY MODE OPTICAL SENSING - A method for sensing a target object using optical mode excitations in microresonators, comprises: preparing at least one cluster including at least two microresonators; obtaining some first spectra of the cluster; adsorbing the target object on a surface of the cluster; obtaining some second spectra of the cluster; and sensing the target object by comparing a lineshape of the first spectra with a lineshape of the second spectra. | 01-27-2011 |
20110149292 | APPARATUS AND METHOD FOR ANALYZING OPTICAL CAVITY MODES - A system for analyzing optical cavity modes of at least one microcavity or at least one cluster of microcavities, comprises, an apparatus for sensing a change in the condition of or for analyzing the optical cavity modes by utilizing an optical interference of the optical cavity modes. | 06-23-2011 |
20110253909 | OPTICAL SENSING VIA CAVITY MODE EXCITATIONS IN THE STIMULATED EMISSION REGIME - A method for analyzing a dense medium with optical cavity modes, comprising the steps of: disposing at least a part of a microlaser into the dense medium; and before, during, or after disposing the part of the microlaser into the dense medium, sensing a condition or a change of the dense medium by means of analysis of optical cavity modes. | 10-20-2011 |
20110256577 | METHOD FOR SENSING A BIOCHEMICAL AND/OR BIOMECHANICAL PROCESS OF A BIOLOGICAL MATERIAL AND METHOD FOR ANALYZING BIOLOGICAL MATERIALS - A method for sensing a biochemical and/or biomechanical process of a biological material, comprising the steps of: disposing at least a part of a microresonator into the biological material; and before, during, or after disposing the part of the microresonator into the biological material, sensing the process of the biological material by analysis of one or more optical cavity modes of the microresonator. | 10-20-2011 |
20120126143 | APPARATUS AND METHOD FOR OPERATING OPTICAL MICROCAVITY BY LIGHT EMITTING DIODE - An optical cavity mode apparatus comprising at least one microresonator; a light emitting diode for supplying light irradiation to the microresonator to stimulate the excitation level of the microresonator; and an optical detector to obtain spectra of the microresonator stimulated by the light emitting diode. | 05-24-2012 |
20130105709 | Optical Cavity Mode Excitations in Magnetic Fluorescent Microparticles | 05-02-2013 |
Patent application number | Description | Published |
20090269558 | METHOD AND APPARATUS FOR PRODUCING SMALL STRUCTURES - The present invention relates to a method for producing small structures includes: depositing a mask on a surface of a substrate; and evaporating a source material under such evaporation condition performed at such pressure to form a layer onto both a shadowed surface area and a non-shadowed surface area of the mask and the substrate. | 10-29-2009 |
20090302235 | FLUORESCENT NON-METALLIC PARTICLES ENCAPSULATED IN A METALLIC COATING - The present invention relates to a particle comprising a non-metallic core having a fluorescent material and a metallic shell encapsulating the non-metallic core wherein the metallic shell has transparency for an electromagnetic radiation having a first wavelength to excite the said fluorescent material and reflectance for an electromagnetic radiation having a second wavelength emitted by the said fluorescent material to confine the electromagnetic radiation having the second wavelength in the metallic shell. This system allows for the excitation of optical cavity modes inside the particle even at sub-micron particle size. The cavity modes are extremely sensitive to any change of the dielectric environment of the particle. This sensitivity can be used for the construction of optical nano-biosensors. Another application of the system is that of a microscopic source for spherical light waves, which may find applications in digital inline holography and display technology. | 12-10-2009 |
20100086992 | BIOSENSOR, BIOSENSOR CHIP AND METHOD FOR PRODUCING THE BIOSENSOR CHIP FOR SENSING A TARGET MOLECULE - A biosensor chip for sensing a target molecule, includes: a substrate having a surface with a sensing area; and adhesive material for immobilizing a mollicute having a cell membrane on the sensing area. The chip may includes cell-resistant material for preventing the mollicute from being immobilized on those parts of the surface of the substrate that do not belong to the sensing area. Further, the adhesive material may comprise a first adhesive material for immobilizing a body of the mollicute on the sensing area and a second adhesive material for immobilizing a tip of the mollicute on the surface of the substrate. | 04-08-2010 |
20100151491 | CHEMICAL SURFACE NANOPATTERNS TO INCREASE ACTIVITY OF SURFACE-IMMOBILIZED BIOMOLECULES - The present invention has been achieved in order to solve the problems which may occur in the nanopatterning of biomolecules with an aim to improve the activity and bio-recognition properties of the surface-immobilized biomolecules. A structure for bio-detection according to one aspect of the present invention comprises a large-scale chemical nanopattern of fouling and non-fouling areas fabricated on a homogeneous surface of the structure; and a biomolecule confined to the fouling area. | 06-17-2010 |