Patent application number | Description | Published |
20080237851 | SEMICONDUCTOR DEVICE, MANUFACTURING METHOD THEREOF, COMPOSITE METAL BODY AND MANUFACTURING METHOD THEREOF - A semiconductor device having a structure in which a semiconductor element and a Cu or Ni electrode are connected by way of a bonding layer comprising Cu, and the Cu bonding layer and the Cu or Ni electrode are diffusion-bonded to each other. The bonding layer is formed by conducting bonding in a reducing atmosphere by using a bonding material containing particles of Cu oxide with an average particle size of 1 nm to 50 μm and a reducing agent comprising an organic material, thereby providing excellent bonding strength to Ni or Cu electrode. | 10-02-2008 |
20080315401 | Power Semiconductor Module And Method of Manufacturing the Power Semiconductor Module - A power semiconductor module has a silicon nitride insulated substrate, a metal circuit plate made of Cu or a Cu alloy, which is disposed on one surface of the silicon nitride insulated substrate, a semiconductor chip mounted on the metal circuit plate, and a heat dissipating plate made of Cu or a Cu alloy, which is disposed on the other surface of the silicon nitride insulated substrate; a carbon fiber-metal composite made of carbon fiber and Cu or a Cu alloy is provided between the silicon nitride insulated substrate and the metal circuit plate; the thermal conductivity of the carbon fiber-metal composite in a direction in which carbon fiber of the carbon fiber-metal composite is oriented is 400 W/m·k or more. Accordingly, a power semiconductor module that has a low thermal resistance between the semiconductor chip and a heat dissipating mechanism and also has improved cooling capacity is provided. | 12-25-2008 |
20090244868 | Semiconductor device and bonding material - The present invention is directed to enhancing the bonding reliability of a bonding portion between an Al electrode of a semiconductor device and a bonding material having metal particles as a main bonding agent. In the semiconductor device, a semiconductor element and an Al electrode are connected to each other with a bonding layer made of Ag or Cu interposed therebetween, and the bonding layer and the Al electrode are bonded to each other with an amorphous layer interposed therebetween. It is possible to obtain excellent bonding strength to the Al electrode by performing a bonding process in atmospheric air by using a bonding material including a metal oxide particle with an average diameter of 1 nm to 50 μm, an acetic acid- or formic acid-based compound, and a reducing agent made of an organic material. | 10-01-2009 |
20100195292 | ELECTRONIC MEMBER, ELECTRONIC PART AND MANUFACTURING METHOD THEREFOR - When silver oxide is reduced to silver, a large number of cores of metallic silver are formed inside the silver oxide. Then, the silver oxide is reduced in a manner of being hollowed out while its original outer configuration is being maintained. As a result, the curvature of the silver generated becomes larger. The utilization of this microscopic-particle implementation mechanism allows accomplishment of the bonding even if the silver oxide is supplied not in a particle-like configuration, but in a closely-packed layer-like configuration. In the present invention, there is provided an electronic member including an electrode for inputting/outputting an electrical signal, or a connection terminal for establishing a connection with the electrical signal, wherein the uppermost surface of the electrode or the connection terminal is a silver-oxide layer. | 08-05-2010 |
20100270515 | ELECTRICALLY CONDUCTIVE BONDING MATERIAL, METHOD OF BONDING WITH THE SAME, AND SEMICONDUCTOR DEVICE BONDED WITH THE SAME - The present invention provides a bonding material and a method of bonding for metal bonding at a bonding interface capable of a higher bonding strength at a lower temperature without application of pressure, compared to a bonding material of metal particles having an average particle size of not greater than 100 nm. An electrically conductive bonding material including (A) silver particles, (B) silver oxide, and (C) a dispersant including organic material containing not more than 30 carbon atoms as essential components, wherein a total amount of (A) the silver powder, (B) the silver oxide powder, and (C) the dispersant including an organic material containing not more than 30 carbon atoms is in a range of 99.0% to 100% by weight, is provided. In other words, no resin binder is contained. | 10-28-2010 |
20100325761 | Scanning Probe Microscope and Method of Observing Sample Using the Same - Optical information and topographic information of the surface of a sample are measured at a nanometer-order resolution and with high reproducibility without damaging a probe and the sample by combining a nanometer-order cylindrical structure with a nanometer-order microstructure to form a plasmon intensifying near-field probe having a nanometer-order optical resolution and by repeating approach/retreat of the probe to/from each measurement point on the sample at a low contact force. | 12-23-2010 |
20110012262 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device wherein a semiconductor element made of Si or Si group material mounted on a substrate, the semiconductor element is mounted on the substrate and the semiconductor element is bonded to a silver bonding material via a oxide film formed on the semiconductor element. The bonding material comprising silver oxide particles having an average particle size of 1 nm to 50 nm and an organic reducing agent is used for bonding in air, which gives a high bonding strength to the oxide on the semiconductor element. | 01-20-2011 |
20110156225 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device achieving both electromagnetic wave shielding property and reliability in a heating process upon mounting electronic components. In the semiconductor device, mount devices | 06-30-2011 |
20110204125 | LOW TEMPERATURE BONDING MATERIAL AND BONDING METHOD - A bonding material comprising metal particles coated with an organic substance having carbon atoms of 2 to 8, wherein the metal particles comprises first portion of 100 nm or less, and a second portion larger than 100 nm but not larger than 100 μm, each of the portions having at least peak of a particle distribution, based on a volumetric base. The disclosure is further concerned with a bonding method using the bonding material. | 08-25-2011 |
20120104618 | LOW TEMPERATURE BONDING MATERIAL AND BONDING METHOD - A bonding material comprising metal particles coated with an organic substance having carbon atoms of 2 to 8, wherein the metal particles comprises first portion of 100 nm or less, and a second portion larger than 100 nm but not larger than 100 μm, each of the portions having at least peak of a particle distribution, based on a volumetric base. The disclosure is further concerned with a bonding method using the bonding material. | 05-03-2012 |
20120204297 | Scanning Probe Microscope and Method of Observing Sample Using the Same - Optical information and topographic information of the surface of a sample are measured at a nanometer-order resolution and with high reproducibility without damaging a probe and the sample by combining a nanometer-order cylindrical structure with a nanometer-order microstructure to form a plasmon intensifying near-field probe having a nanometer-order optical resolution and by repeating approach/retreat of the probe to/from each measurement point on the sample at a low contact force. | 08-09-2012 |
20130119322 | CONDUCTIVE SINTERED LAYER FORMING COMPOSITION - There is provided a conductive sintered layer forming composition and a conductive sintered layer forming method that can lower heating temperature and shorten heating time for a process of accelerating sintering or bonding by sintering of metal nano-particles coated with an organic substance. The conductive sintered layer forming composition may be obtained by utilizing a phenomenon that particles may be sintered at low temperature by mixing silver oxide with metal particles coated with the organic substance and having a grain size of 1 nm to 5 μm as compared to sintering each simple substance. The conductive sintered layer forming composition of the invention is characterized in that it contains the metal particles whose surface is coated with the organic substance and whose grain size is 1 nm to 5 μm and the silver oxide particles. | 05-16-2013 |
20130299962 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME - A semiconductor device includes an IGBT as a vertical semiconductor element provided between first, and second lead frames, in pairs, the first, and second lead frames being opposed to each other, first and second sintered-metal bonding layers provided on first and second bonding surfaces of the IGBT, in pairs, respectively, a through-hole opened in the second lead frame, and a heat-release member having a surface on one side thereof, bonded to a second sintered-metal bonding layer of the second bonding surface while a side (lateral face) of a surface of the heat-release member, on the other side thereof, being fitted into the through-hole. A solder layer is formed in a gap between an outer-side wall of the side of the surface of the heat-release member, on the other side thereof, and an inner-side wall of the through-hole. | 11-14-2013 |