Patent application number | Description | Published |
20090232987 | Composition for Chemical Vapor Deposition Film-Formation and Method for Production of Low Dielectric Constant Film - The present invention provides a composition for chemical vapor deposition film-formation comprising a borazine compound represented by the Chemical Formula 1 satisfying at least one of a condition that content of each halogen atom in the composition is 100 ppb or less or a condition that content of each metal element in the composition is 100 ppb or less. In the Chemical Formula 1, R | 09-17-2009 |
20100112805 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - There is provided a semiconductor device and method of fabricating the same that employs an insulation film of a borazine-based compound to provided enhanced contact between a material for insulation and that for interconnection, increased mechanical strength, and other improved characteristics. The semiconductor device includes a first insulation layer having a recess with a first conductor layer buried therein, an etching stopper layer formed on the first insulation layer, a second insulation layer formed on the etching stopper layer, a third insulation layer formed on the second insulation layer, and a second conductor layer buried in a recess of the second and third insulation layers. The second and third insulation layers are grown by chemical vapor deposition with a carbon-containing borazine compound used as a source material and the third insulation layer is smaller in carbon content than the second insulation layer. | 05-06-2010 |
20130160711 | PLASMA CVD APPARATUS, METHOD FOR FORMING THIN FILM AND SEMICONDUCTOR DEVICE - A plasma CVD apparatus including a reaction chamber including an inlet for supplying a compound including a borazine skeleton, a feeding electrode, arranged within the reaction chamber, for supporting a substrate and being applied with a negative charge, and a plasma generating mechanism, arranged opposite to the feeding electrode via the substrate, for generating a plasma within the reaction chamber. A method forms a thin film wherein a thin film is formed by using a compound including a borazine skeleton as a raw material, and a semiconductor device includes a thin film formed by such a method as an insulating film. The apparatus and method enable to produce a thin film wherein low dielectric constant and high mechanical strength are stably maintained for a long time and insulating characteristics are secured. | 06-27-2013 |
Patent application number | Description | Published |
20100004425 | SOURCE MATERIAL FOR PREPARING LOW DIELECTRIC CONSTANT MATERIAL - A low dielectric constant material having an excellent water resistance obtained by heat-treating a borazine compound of the formula (1-2): | 01-07-2010 |
20100164072 | PLASMA CVD APPARATUS, METHOD FOR FORMING THIN FILM AND SEMICONDUCTOR DEVICE - A plasma CVD apparatus including a reaction chamber including an inlet for supplying a compound including a borazine skeleton, a feeding electrode, arranged within the reaction chamber, for supporting a substrate and being applied with a negative charge, and a plasma generating mechanism, arranged opposite to the feeding electrode via the substrate, for generating a plasma within the reaction chamber. A method forms a thin film wherein a thin film is formed by using a compound including a borazine skeleton as a raw material, and a semiconductor device includes a thin film formed by such a method as an insulating film. The apparatus and method enable to produce a thin film wherein low dielectric constant and high mechanical strength are stably maintained for a long time and insulating characteristics are secured. | 07-01-2010 |
20100181654 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE, INSULATING FILM FOR SEMICONDUCTOR DEVICE, AND MANUFACTURING APPARATUS OF THE SAME - An object to provide an insulating film for a semiconductor device, which has characteristics of low permittivity, a low leak current, and high mechanical strength, undergoes small time-dependent change of these characteristics, and has excellent water resistance, and to provide a manufacturing apparatus of the same, and a manufacturing method of the semiconductor device using the insulating film. The production process comprises a film forming step of supplying a mixed gas containing a carrier gas and a raw material gas, which is a gasified material having borazine skeletal molecules, into a chamber, causing the mixed gas to be in a plasma state, applying a bias to the substrate placed in the chamber, and carrying out gas-phase polymerization by using the borazine skeletal molecule as a fundamental unit so as to form the insulating film on the substrate; and a reaction promoting step of, after the film forming step, bringing the bias applied to the substrate to a different magnitude from the bias in the film forming step, supplying the mixed gas while gradually reducing only the raw material gas, which is the gasified material having the borazine skeletal molecules, treating the insulating film with a plasma mainly comprising the carrier gas. | 07-22-2010 |
20110266660 | INSULATING FILM FOR SEMICONDUCTOR DEVICE, PROCESS AND APPARATUS FOR PRODUCING INSULATING FILM FOR SEMICONDUCTOR DEVICE, SEMICONDUCTOR DEVICE, AND PROCESS FOR PRODUCING THE SEMICONDUCTOR DEVICE - An object is to provide an insulating film for a semiconductor device which has characteristics of a low permittivity, a low leakage current, and a high mechanical strength, undergoes less change in these characteristics with the elapse of time, and has an excellent water resistance, as well as to provide a process and an apparatus for producing the insulating film for a semiconductor device, a semiconductor device, and a process for producing the semiconductor device. A gas containing a raw material gas which gasified a predetermined alkylborazine compound is supplied in a chamber ( | 11-03-2011 |