| Patent application number | Description | Published |
|---|
| 20110175107 | SILICON CARBIDE SUBSTRATE - A base portion is made of silicon carbide and has a main surface. At least one silicon carbide layer is provided on the main surface of the base portion in a manner exposing a region of the main surface along an outer edge of the main surface. At least one protection layer is provided on this region of the main surface of the base portion along the outer edge of the main surface. Thus, a silicon carbide substrate can be polished with high in-plane uniformity. | 07-21-2011 |
| 20110175108 | LIGHT-EMITTING DEVICE - A silicon carbide substrate has a first layer facing a semiconductor layer and a second layer stacked on the first layer. Dislocation density of the second layer is higher than dislocation density of the first layer. Thus, quantum efficiency and power efficiency of a light-emitting device can both be high. | 07-21-2011 |
| 20110193196 | Indium Phosphide Substrate Manufacturing Method, Epitaxial Wafer Manufacturing Method, Indium Phosphide Substrate, and Epitaxial Wafer - Affords methods of manufacturing InP substrates, methods of manufacturing epitaxial wafers, InP substrates, and eptiaxial wafers whereby deterioration of the electrical characteristics can be kept under control, and at the same time, deterioration of the PL characteristics can be kept under control. An InP substrate manufacturing method of the present invention is provided with the following steps. An InP substrate is prepared (Steps S | 08-11-2011 |
| 20110198027 | METHOD FOR MANUFACTURING SILICON CARBIDE SUBSTRATE - A base portion and first and second silicon carbide substrates are disposed in a processing chamber such that a first side surface of a first silicon carbide substrate and a side surface of a second silicon carbide substrate face each other. The processing chamber has an inner surface at least a portion of which is covered with an absorbing portion including Ta atoms and C atoms. In order to connect the first and second side surfaces to each other, a temperature in the processing chamber is increased to reach or exceed a temperature at which silicon carbide can sublime. In the step of increasing the temperature, at least a portion of the absorbing portion is carbonized. | 08-18-2011 |
| 20110233561 | SEMICONDUCTOR SUBSTRATE - A supporting portion is made of silicon carbide. At least one layer has first and second surfaces. The first surface is supported by the supporting portion. The at least one layer has first and second regions. The first region is made of silicon carbide of a single-crystal structure. The second region is made of graphite. The second surface has a surface formed by the first region. The first surface has a surface formed by the first region, and a surface formed by the second region. In this way, a semiconductor substrate can be provided which has a region made of silicon carbide having a single-crystal structure and a supporting portion made of silicon carbide and allows for reduced electric resistance of an interface therebetween. | 09-29-2011 |
| 20110278593 | METHOD FOR MANUFACTURING SILICON CARBIDE SUBSTRATE, METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE, SILICON CARBIDE SUBSTRATE, AND SEMICONDUCTOR DEVICE - A method for manufacturing a silicon carbide substrate includes the steps of: preparing a SiC substrate made of single-crystal silicon carbide; disposing a base substrate in a crucible so as to face a main surface of the SiC substrate; and forming a base layer made of silicon carbide in contact with the main surface of the SiC substrate, by heating the base substrate in the crucible to fall within a range of temperature higher than a sublimation temperature of silicon carbide constituting the base substrate. In the step of forming the base layer, a gas containing silicon is introduced into the crucible. | 11-17-2011 |
| 20110278594 | METHOD FOR MANUFACTURING SILICON CARBIDE SUBSTRATE, METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE, SILICON CARBIDE SUBSTRATE, AND SEMICONDUCTOR DEVICE - A method for manufacturing a silicon carbide substrate includes the steps of: preparing a SiC substrate made of single-crystal silicon carbide; disposing a base substrate in a crucible so as to face a main surface of the SiC substrate; and forming a base layer made of silicon carbide in contact with the main surface of the SiC substrate by heating the base substrate in the crucible to fall within a range of temperature equal to or higher than a sublimation temperature of silicon carbide constituting the base substrate. The crucible has an inner wall at least a portion of which is provided with a coating layer made of silicon carbide. | 11-17-2011 |
| 20110278595 | METHOD FOR MANUFACTURING SILICON CARBIDE SUBSTRATE, METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE, SILICON CARBIDE SUBSTRATE, AND SEMICONDUCTOR DEVICE - A method for manufacturing a silicon carbide substrate includes the steps of: preparing a base substrate made of silicon carbide and a SiC substrate made of single-crystal silicon carbide; fabricating a stacked substrate by placing said SiC substrate on and in contact with a main surface of said base substrate; and connecting said base substrate and said SiC substrate to each other by heating said stacked substrate in a container to fall within a range of temperature equal to or greater than a sublimation temperature of silicon carbide constituting said base substrate. In the step of connecting said base substrate and said SiC substrate, a silicon carbide body made of silicon carbide and different from said base substrate and said SiC substrate is disposed in said container. | 11-17-2011 |
