Patent application number | Description | Published |
20080304397 | OPTICAL HEAD - A micro optical head is provided, which provides sub-wavelength focusing spot and very long depth of focus. The optical head includes a transparent substrate, an opaque film, and at least one sub-wavelength annular channel. After coherent light transmits the transparent substrate supporting the optical head and passes through the appropriately designed sub-wavelength annular channel, the transmitted light can overcome the diffraction limit, and the transmission energy is improved efficiently. The transmitted light converges after a certain distance behind the optical head and forms a sub-wavelength-scale beam that maintains a very long distance without divergence. | 12-11-2008 |
20110036818 | OPTICAL ETCHING DEVICE FOR LASER MACHINING - An optical etching device for laser machining is provided and includes a laser light source and an optical head. The laser light source emits an incident beam. The optical head includes a transparent substrate, an opaque film and a sub-wavelength annular channel. The laser energy tolerance of the transparent substrate ranges from 8 J/cm | 02-17-2011 |
20110109902 | TRACE DETECTION DEVICE OF BIOLOGICAL AND CHEMICAL ANALYTES AND DETECTION METHOD APPLYING THE SAME - Disclosed is a trace detection device of a biological and chemical analyte, including a metal substrate, a periodic metal nanostructure on the metallic substrate, a dielectric layer on the periodic metal nanostructure, and a continuous metal film on the dielectric layer. Tuning the thickness of the dielectric layer and/or the continuous metal film to meet the laser wavelength can shift the absorption peak wavelength of the sensor, thereby further enhancing the Raman signals of the analyte molecules. | 05-12-2011 |
20130003204 | MULTI-REFLECTION STRUCTURE AND PHOTO-ELECTRIC DEVICE - A multi-reflection structure including a substrate and pyramid is provided. The substrate includes an inversed pyramid shaped recess having at least three first reflection sidewalls. The pyramid is disposed on the substrate and located in the inversed pyramid shaped recess. The pyramid has at least three second reflection sidewalls, wherein the normal of each of the second reflection sidewalls and the normal of each of the first reflection sidewalls are not located in the same plane. Furthermore, a photo-electric device is also provided in the present application. | 01-03-2013 |
20130038870 | SURFACE-ENHANCED RAMAN SCATTERING SUBSTRATE AND A TRACE DETECTION METHOD OF A BIOLOGICAL AND CHEMICAL ANALYTE USING THE SAME - The invention provides a surface-enhanced Raman scattering substrate and a trace detection method of a biological and chemical analyte using the same. The substrate includes: a substrate having a periodic nanostructure; a reflection layer formed on the substrate; a dielectric layer formed on the reflection layer; and a metal thin film layer formed on the dielectric layer. | 02-14-2013 |
20140362373 | SURFACE-ENHANCED RAMAN SCATTERING SUBSTRATE - The disclosure provides a surface-enhanced Raman scattering substrate, including: a surface-enhanced Raman scattering (SERS)-active substrate; a patterned hydrophilic region and a patterned hydrophobic region formed on the SERS-active substrate, wherein a water contact angle difference between the patterned hydrophilic region and the patterned hydrophobic region is in a range from about 29 degrees to about 90 degrees. | 12-11-2014 |
20150075585 | PHOTO-ELECTRIC DEVICE - A photo-electric device including a photoelectric conversion layer and a plurality of electrodes is provided. The photoelectric conversion layer includes a plurality of inversed pyramid shaped recesses and a plurality of a pyramids, wherein each of the inversed pyramid shaped recesses has at least three first reflection sidewalls, each of the pyramids is located in one of the inversed pyramid shaped recesses respectively, each of the pyramids has at least three second reflection sidewalls, and none of the first reflection sidewall and the second reflection sidewall is located in a same plane. The electrodes are electrically connected to the photoelectric conversion layer. | 03-19-2015 |