| Patent Number |
Title Of Patent |
Date Issued |
| 8241580 |
Plasma processing methods for inactivating toxins |
August 14, 2012 |
| This invention concerns with the plasma inactivating method and processor that can inactivate the surface of the object without causing the degradation inside of it. The inactivation of toxins on the surface of the object proceeds as removing the toxins by nitriding or oxidizing the |
| 7927982 |
Apparatus for mass-producing silicon-based thin film and method for mass-producing silicon-based |
April 19, 2011 |
| A silicon-based thin film mass-producing apparatus, including transparent electrodes placed to face in parallel to corresponding counter electrodes with a space therebetween, and silicon-based thin films are deposited on the transparent electrodes by feeding a raw material gas for deposi |
| 7927981 |
Apparatus for depositing silicon-based thin film and method for depositing silicon-based thin fi |
April 19, 2011 |
| A silicon-based thin film depositing apparatus, including a plurality of transparent electrodes disposed to face corresponding counter electrodes with a space therebetween. Subsequently, while injecting a raw material gas from raw material gas injection orifices toward the supporting |
| 7780923 |
Plasma reaction vessel, and method of producing the same |
August 24, 2010 |
| In the plasma reaction vessel (1) of the invention, two or more laminate-structures (6) having ceramic formed bodies (3, 4) in which a plasma generating electrode (2) capable of generating plasma is formed in two-tape-form, and an electrically continuous film-like electrically conduc |
| 7727487 |
Plasma reaction vessel, and method of producing the same |
June 1, 2010 |
| In the plasma reaction vessel (1) of the invention, two or more laminate-structures (6) having ceramic formed bodies (3, 4) in which a plasma generating electrode (2) capable of generating plasma is formed in two-tape-form, and an electrically continuous film-like electrically conduc |
| 6767434 |
Method of treating substance and apparatus for carrying out the same |
July 27, 2004 |
| An apparatus for treating harmful substances contained in a waste gas discharged from waste burning pants includes an insulating honeycomb structural body made of ceramics containing a photocatalytic material, a number of through holes formed in the honeycomb structural body in paral |
| 6403988 |
Semiconductor device with reverse conducting faculty |
June 11, 2002 |
| A semiconductor device constructed as a reverse conducting static induction thyristor including a thyristor section 114 formed by an n.sup.- silicon substrate 101, p.sup.+ gate regions 102, 104 formed in one surface of the substrate, a p.sup.+ anode region 111 formed in the other surface |
| 6306673 |
Thermoelectric conversion module and method of manufacturing the same |
October 23, 2001 |
| A thermoelectric conversion module having a large capacity and a curved surface which can be secured to a corresponding curved surface of a base member is manufactured by inserting N type and P type semiconductor strips into through holes formed in a honeycomb structural body, filling sp |
| 6285112 |
Surface acoustic wave device comprising langasite single crystal substrate |
September 4, 2001 |
| A surface acoustic wave device including a substrate and an electrode structure formed on the substrate, said substrate being made of an X-cut Langasite single crystal, a rotation Y-cut Langasite single crystal or a double rotation Y-cut Langasite single crystal. When the X-cut Langasite |
| 6235981 |
P-type thermoelectric converting substance and method of manufacturing the same |
May 22, 2001 |
| A p-type thermoelectric converting substance used as a p-type semiconductor in a thermoelectric converting module consisting essentially of a substance expressed by a chemical formula CoSb.sub.x Sn.sub.y or CoSb.sub.x Ge.sub.y (2.7<x<3.4, 0<y<0.4, x+y>3), and containing a |
| 6229409 |
Surface acoustic wave matched filter |
May 8, 2001 |
| An output side electrode of a surface acoustic wave matched filter with portions having different delay times between taps. The output side electrode may be provided by arranging parallelly a plurality of output side electrodes having different scales, different tap distances, or by |
| 6180872 |
Process and apparatus for growing crystalline silicon plates by pulling the plate through a grow |
January 30, 2001 |
| A process for growing a crystalline silicon plate, including the steps of arranging a planar growth member and a growth crucible in which a melt of silicon is placed and which is provided with a melt draw-out opening at a lower side thereof, while at least a tip portion of the growth mem |
| 6072118 |
Process and apparatus for growing crystalline silicon plates by pulling the plate through a grow |
June 6, 2000 |
| A process for growing a crystalline silicon plate, including the steps of arranging a planar growth member and a growth crucible in which a melt of silicon is placed and which is provided with a melt draw-out opening at a lower side thereof, while at least a tip portion of the growth mem |
| 6036775 |
Single crystal-growing method and apparatus |
March 14, 2000 |
| A process is disclosed for continuously producing a single crystal by drawing downwardly a melt of a single crystal raw material, wherein a single crystal body grown from the melt is continuously pulled downwardly, and a plurality of single crystal products are continuously formed by |
| 6005182 |
Thermoelectric conversion module and method of manufacturing the same |
December 21, 1999 |
| A thermoelectric conversion module including a honeycomb structural body 3 made of an electrically insulating material, N type and P type semiconductor elements 1 and 2 inserted into through holes formed in the honeycomb structural body 3, electrically insulating filler members 4 fil |
| 5994637 |
Thermoelectric conversion module and method of manufacturing the same |
November 30, 1999 |
| A thermoelectric conversion module having a large capacity and a curved surface is manufactured by immersing a honeycomb structural body having a number of through holes, openings of every other through holes being closed by clogging members, into a semiconductor material melt of one |
| 5965841 |
Thermoelectric conversion material and a process for producing the same |
October 12, 1999 |
| A thermoelectric conversion material includes a sintered body composed mainly of cobalt and antimony, wherein cobalt and antimony as main components form a compound of cubic CoSb.sub.3, a phase composed mainly of an Sb phase is contained as a secondary phase, and a volumetric rate of |
| 5961720 |
Single crystal-growing apparatus |
October 5, 1999 |
| A process is disclosed for continuously producing a single crystal by drawing downwardly a melt of a single crystal raw material, wherein a single crystal body grown from the melt is continuously pulled downwardly, and a plurality of single crystal products are continuously formed by |
| 5952728 |
Thermoelectric conversion module having channels filled with semiconducting material and insulat |
September 14, 1999 |
| A thermoelectric conversion module having a large capacity and a curved surface which can be secured to a corresponding curved surface of a base member is manufactured by inserting N type and P type semiconductor strips into through holes formed in a honeycomb structural body, filling sp |
| 5912429 |
High temperature thermoelectric material and its production method |
June 15, 1999 |
| Thermoelectric material for high temperature use made of a sintered body of a relative density of at least 75% consisting mainly of cobalt antimony compounds having an elemental ratio Sb/(Co+additives)=x of 2.7<x<3 is produced by a method of firing a shaped body of powders consisti |
| 5886291 |
Thermoelectric conversion module and method of manufacturing the same |
March 23, 1999 |
| A thermoelectric conversion module having a large capacity and a curved surface is manufactured by immersing a honeycomb structural body having a number of through holes, openings of every other through holes being closed by clogging members, into a semiconductor material melt of one |
| 5705434 |
Method of manufacturing thermoelectric conversion module |
January 6, 1998 |
| A thermoelectric conversion module having a large capacity and a curved surface which can be secured to a corresponding curved surface of a base member is manufactured by inserting N type and P type semiconductor strips into through holes formed in a honeycomb structural body, filling sp |
| 5690734 |
Single crystal growing method |
November 25, 1997 |
| A process is disclosed for continuously producing a single crystal by drawing downwardly a melt of a single crystal raw material, wherein a single crystal body grown from the melt is continuously pulled downwardly, and a plurality of single crystal products are continuously formed by |
| 5273791 |
Method of improving the corrosion resistance of a metal |
December 28, 1993 |
| A composite member includes a structural member having a surface in a mirror-finished condition and a film layer of an amorphous material provided on the surface. The amorphous material is preferably at least one selected from amorphous SiC, amorphous SiN, amorphous SiGe and amorphous |
| 4610967 |
Zirconia porcelain and method of manufacturing the same |
September 9, 1986 |
| Disclosed herein is a zirconia porcelain which includes 1.5-5 mol % of yttrium oxide, 1-5.5 mol % of cerium oxide and the balance being substantially zirconium oxide. Disclosed herein also is a method of producing a zirconia porcelain, which includes the steps of preparing a mixed po |
