Patent application number | Description | Published |
20100238439 | SPECTROSCOPIC MODULE - The spectroscopy module | 09-23-2010 |
20110075260 | GRATING DEVICE AND METHOD OF FABRICATING THE SAME - In a grating device ( | 03-31-2011 |
20110261356 | SPECTROSCOPE - The spectrometer | 10-27-2011 |
20120099104 | SPECTROSCOPE - The spectrometer | 04-26-2012 |
20140041217 | METHOD FOR MAKING SURFACE ENHANCED RAMAN SCATTERING DEVICE - A method for making a surface enhanced Raman scattering device in accordance with one aspect of the present invention comprises a first step of forming a nanoimprint layer on a main surface of a wafer including a plurality of portions each corresponding to a substrate; a second step of transferring, by using a mold having a pattern corresponding to a fine structural part, the pattern to the nanoimprint layer after the first step, and thereby forming the formed layer including the fine structural part for each portion corresponding to the substrate; a third step of forming a conductor layer on the fine structural part after the second step; and a fourth step of cutting the wafer into each portion corresponding to the substrate after the second step. | 02-13-2014 |
20150204792 | SURFACE-ENHANCED RAMAN SCATTERING UNIT, AND METHOD FOR USING SAME - A SERS unit comprises a substrate; an optical function part formed on the substrate, for generating surface-enhanced Raman scattering; and a package containing the optical function part in an inert space and configured to irreversibly expose the space. | 07-23-2015 |
20150211999 | SURFACE-ENHANCED RAMAN SCATTERING ELEMENT - A SERS element comprises a substrate; a fine structure part formed on a front face of the substrate and having a plurality of pillars; and a conductor layer formed on the fine structure part and constituting an optical function part for generating surface-enhanced Raman scattering. The conductor layer has a base part formed along the front face of the substrate and a plurality of protrusions protruding from the base part at respective positions corresponding to the pillars. The base part and the protrusions form a plurality of gaps in the conductor layer, each of the gaps having an interstice gradually decreasing in the projecting direction of the pillar. | 07-30-2015 |
20150212000 | SURFACE-ENHANCED RAMAN SCATTERING ELEMENT - A SERS element comprises a substrate; a fine structure part formed on a front face of the substrate and having a plurality of pillars; and a conductor layer formed on the fine structure part and constituting an optical function part for generating surface-enhanced Raman scattering. The conductor layer has a base part formed along the front face of the substrate and a plurality of protrusions protruding from the base part at respective positions corresponding to the pillars. The base part and the protrusions form a plurality of gaps in the conductor layer, each of the gaps having an interstice gradually decreasing in a direction perpendicular to the projecting direction of the pillar. | 07-30-2015 |
20150212001 | SURFACE-ENHANCED RAMAN SCATTERING ELEMENT - A surface-enhanced Raman scattering element comprises a substrate having a principal surface; a molded layer having a support part formed on the principal surface of the substrate so as to extend along the principal surface and a fine structure part formed on the support part; and a conductor layer formed on the fine structure part and constituting an optical functional part for generating surface-enhanced Raman scattering; the molded layer being relatively thinner in a direction intersecting the principal surface of the substrate at an outer edge part of a fine structure area formed with the fine structure part in the molded layer than at a center part of the fine structure area. | 07-30-2015 |
20150212002 | SURFACE-ENHANCED RAMAN SCATTERING ELEMENT - A surface-enhanced Raman scattering element comprises a substrate having a principal surface; a molded layer including a support part formed on the principal surface and a fine structure part formed on the support part; and a conductor layer, deposited on the fine structure part, constituting an optical functional part for generating surface-enhanced Raman scattering. The fine structure part has a plurality of pillars erected on the support part. The support part is provided with a plurality of opposing parts opposing side faces of the pillars. The opposing parts are located on the substrate side relative to leading end parts of the pillars in a projecting direction of the pillars. | 07-30-2015 |
20150212003 | SURFACE-ENHANCED RAMAN SCATTERING ELEMENT - A SERS element comprises a substrate having a front face; a fine structure part formed on the front face and having a plurality of pillars; and a conductor layer formed on the fine structure part and constituting an optical function part for generating surface-enhanced Raman scattering. The conductor layer has a base part formed along the front face and a plurality of protrusions protruding from the base part at respective positions corresponding to the pillars. The base part is formed with a plurality of grooves surrounding the respective pillars when seen in the projecting direction of the pillars, while an end part of the protrusion is located within the groove corresponding thereto. | 07-30-2015 |
20150219561 | SURFACE-ENHANCED RAMAN SCATTERING ELEMENT - A surface-enhanced Raman scattering element comprises a substrate having a principal surface; a molded layer having a support part formed on the principal surface of the substrate so as to extend along the principal surface and a fine structure part formed on the support part; and a conductor layer formed on the fine structure part and constituting an optical functional part for generating surface-enhanced Raman scattering; the molded layer being relatively thinner in a direction intersecting the principal surface of the substrate at a center edge part of a fine structure area formed with the fine structure part in the molded layer than at an outer edge part of the fine structure area. | 08-06-2015 |
20150219562 | SURFACE-ENHANCED RAMAN SCATTERING ELEMENT, AND METHOD FOR PRODUCING SAME - A SERS element comprises a substrate having a front face; a fine structure part formed on the front face and having a plurality of pillars; and a conductor layer formed on the fine structure part and constituting an optical function part for generating surface-enhanced Raman scattering. The conductor layer has a base part formed along the front face and a plurality of protrusions protruding from the base part at respective positions corresponding to the pillars. The base part has a thickness greater than the height of the pillars. | 08-06-2015 |
20150233830 | SURFACE-ENHANCED RAMAN SCATTERING UNIT - A SERS unit comprises an integrally formed handling board and a SERS element secured within a container space provided in the handling board so as to open to one side in a thickness direction of the handling board. The SERS element has a substrate arranged on an inner surface of the container space and an optical function part formed on the substrate, for generating surface-enhanced Raman scattering. | 08-20-2015 |
20150233831 | SURFACE-ENHANCED RAMAN SCATTERING ELEMENT - A surface-enhanced Raman scattering element comprises a substrate having a principal surface; a molded layer having a support part formed on the principal surface of the substrate so as to extend along the principal surface and a fine structure part formed on the support part; a frame part formed on the principal surface of the substrate so as to surround the support part and fine structure part along the principal surface; and a conductor layer formed on at least the fine structure part and constituting an optical functional part for generating surface-enhanced Raman scattering; while the fine structure part are formed integrally with the support part. | 08-20-2015 |
20150233832 | SURFACE-ENHANCED RAMAN SCATTERING ELEMENT, AND METHOD FOR MANUFACTURING SURFACE-ENHANCED RAMAN SCATTERING ELEMENT - A SERS element | 08-20-2015 |
20150233833 | SURFACE-ENHANCED RAMAN SCATTERING ELEMENT - A SERS element comprises a substrate; a fine structure part formed on a front face of the substrate and having a plurality of pillars; and a conductor layer formed on the fine structure part and constituting an optical function part for generating surface-enhanced Raman scattering. The pillars have respective side faces provided with grooves. A plurality of gaps are formed in the conductor layer by entering the grooves. | 08-20-2015 |
Patent application number | Description | Published |
20090233128 | FUEL, FUEL CELL SYSTEM, FUEL CELL VEHICLE AND OPERATING METHOD FOR FUEL CELL SYSTEM - A direct type fuel cell ( | 09-17-2009 |
20090253001 | Fuel Cell System, Fuel Cell Vehicle, and Operating Method for Fuel Cell System - A utility supply system (SS) supplies a fluid containing an antioxidant of a gaseous phase to a stack ( | 10-08-2009 |
20110052486 | MICROPOROUS CARBON MATERIAL, MANUFACTURING METHOD THEREOF, AND HYDROGEN STORAGE METHOD USING MICROPOROUS CARBON MATERIAL - The present invention provides a microporous carbon material capable of expressing functions that supported metal has while maintaining pore functions that the microporous carbon material inherently possesses. The microporous carbon material | 03-03-2011 |
20130322456 | COMMUNICATION DEVICE, A CONTROL DEVICE, AND A NON-TRANSITORY COMPUTER READABLE MEDIUM - A communication device transmits a first packet to a first device via a network device, and receives a second packet from the first device. A transmission time between the communication device and the first device is calculated using time indicated by the communication device when the communication device transmitted the first packet, time indicated by the first device when the first device received the first packet, time indicated by the first device when the first device transmitted the second packet, time indicated by the communication device when the communication device received the second packet. A size of the first packet is set so that wait time of the first packet at the network device is within predetermined period. The wait time is calculated by assuming that a third packet transmitted from a second device is inputted to the network device before the first packet is inputted to the network device. | 12-05-2013 |
Patent application number | Description | Published |
20110267396 | INKJET PRINTING APPARATUS - In an inkjet printing apparatus capable of automatic duplex printing, time required to fix ink is shortened and throughput is improved without producing uneven fixing. The inkjet printing apparatus includes a printing unit that prints onto a sheet, a fixing unit that heats a sheet printed by the printing unit, a conveying unit that conveys a sheet with respect to the printing unit and the fixing unit, and a controller that controls the conveying unit such that a printing region of a sheet printed on the first side by the printing unit passes through the fixing unit, and afterwards, the conveyance direction of the sheet is reversed in order to print on the second side and the printing region once again passes through the fixing unit. The controller variably controls the conveyance speed of the sheet when the printing region once again passes through the fixing unit. | 11-03-2011 |
20130001859 | SHEET CONVEYING APPARATUS, PRINTING APPARATUS, AND PROCESSING APPARATUS - Even in printing apparatus that make use of a plurality of kinds of sheets, the degradation of image quality is reduced. A sheet conveying apparatus includes: a sheet stacking unit; a sheet conveying unit being in contact with the sheet stacked on an uppermost portion, of the stacked sheets, and conveying the sheet; a separation unit separating the sheets into only one sheet of the uppermost portion by a separation slope that abuts a tip portion of the sheet conveyed by the sheet conveying unit; and a guide unit connected to the separation unit and guiding the sheet, in which an angle between the sheet stacking unit and the separation slope is switched to a first angle and a second angle smaller than the first angle by a rotation center of the separation unit provided in a vicinity of a connection portion of the separation unit and the guide unit. | 01-03-2013 |
20140355629 | COMMUNICATION APPARATUS, COMMUNICATION SYSTEM, AND COMMUNICATION METHOD - There is provided a communication apparatus communicating with a master apparatus generating events at a constant time interval via a network, including: a clocking unit clocking a time; an event generator generating an event based on the clocking unit in accordance with event interval information specifying a time interval for event generation; a storage storing a first timestamp representing a time when the event is generated in the event generator; a receiver receiving, from the master apparatus, a frame containing a second timestamp representing a time of the event generated in the master apparatus; and an event interval corrector correcting the event interval information so as to make a timing of event generation in the event generator closer to a timing of event generation in the master apparatus based on the first timestamp, the second timestamp, and a pre-acquired time difference between the clocking unit and the master apparatus. | 12-04-2014 |