Patent application number | Description | Published |
20090256261 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The reliability of wirings, each of which includes a main conductive film containing copper as a primary component, is improved. On an insulating film including the upper surface of a wiring serving as a lower layer wiring, an insulating film formed of a silicon carbonitride film having excellent barrier properties to copper is formed; on the insulating film, an insulating film formed of a silicon carbide film having excellent adhesiveness to a low dielectric constant material film is formed; on the insulating film, an insulating film formed of a low dielectric constant material as an interlayer insulating film is formed; and thereafter a wiring as an upper layer wiring is formed. | 10-15-2009 |
20120015514 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The reliability of wirings, each of which includes a main conductive film containing copper as a primary component, is improved. On an insulating film including the upper surface of a wiring serving as a lower layer wiring, an insulating film formed of a silicon carbonitride film having excellent barrier properties to copper is formed; on the insulating film, an insulating film formed of a silicon carbide film having excellent adhesiveness to a low dielectric constant material film is formed; on the insulating film, an insulating film formed of a low dielectric constant material as an interlayer insulating film is formed; and thereafter a wiring as an upper layer wiring is formed. | 01-19-2012 |
20130221486 | TRANSISTOR WITH MIM (METAL-INSULATOR-METAL) CAPACITOR - The orientation polarization (positive and negative) of the Si—N bonds and the Si—O bonds is canceled, thereby enabling to minimize the polarization in a capacitive insulating film. As a result, a silicon oxynitride film with a small voltage secondary coefficient is formed, and is applied as a capacitive insulating film for use in a MIM capacitor. Specifically, the refractive index of the silicon oxynitride film satisfies 1.47≦n≦1.53, for light with a wavelength of 633 nm. | 08-29-2013 |
20130224947 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The reliability of wirings, each of which includes a main conductive film containing copper as a primary component, is improved. On an insulating film including the upper surface of a wiring serving as a lower layer wiring, an insulating film formed of a silicon carbonitride film having excellent barrier properties to copper is formed; on the insulating film, an insulating film formed of a silicon carbide film having excellent adhesiveness to a low dielectric constant material film is formed; on the insulating film, an insulating film formed of a low dielectric constant material as an interlayer insulating film is formed; and thereafter a wiring as an upper layer wiring is formed. | 08-29-2013 |
20130244146 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - After performing a pretreatment step of coating an organic solvent mixed with a polymeric organic compound over a substrate having a tungsten film formed on the surface of the substrate, a chemically amplified resist is coated to form a resist pattern. Further, a ratio of a C1s peak intensity to a W4d peak intensity measured by XPS is 0.1 or mote at the surface of the tungsten film after the pretreatment step and before coating the chemically amplified resist. | 09-19-2013 |
20140091468 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The reliability of wirings, each of which includes a main conductive film containing copper as a primary component, is improved. On an insulating film including the upper surface of a wiring serving as a lower layer wiring, an insulating film formed of a silicon carbonitride film having excellent barrier properties to copper is formed; on the insulating film, an insulating film formed of a silicon carbide film having excellent adhesiveness to a low dielectric constant material film is formed; on the insulating film, an insulating film formed of a low dielectric constant material as an interlayer insulating film is formed; and thereafter a wiring as an upper layer wiring is formed. | 04-03-2014 |
20140312499 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The reliability of wirings, each of which includes a main conductive film containing copper as a primary component, is improved. On an insulating film including the upper surface of a wiring serving as a lower layer wiring, an insulating film formed of a silicon carbonitride film having excellent barrier properties to copper is formed; on the insulating film, an insulating film formed of a silicon carbide film having excellent adhesiveness to a low dielectric constant material film is formed; on the insulating film, an insulating film formed of a low dielectric constant material as an interlayer insulating film is formed; and thereafter a wiring as an upper layer wiring is formed. | 10-23-2014 |
20150235962 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The reliability of wirings, each of which includes a main conductive film containing copper as a primary component, is improved. On an insulating film including the upper surface of a wiring serving as a lower layer wiring, an insulating film formed of a silicon carbonitride film having excellent barrier properties to copper is formed; on the insulating film, an insulating film formed of a silicon carbide film having excellent adhesiveness to a low dielectric constant material film is formed; on the insulating film, an insulating film formed of a low dielectric constant material as an interlayer insulating film is formed; and thereafter a wiring as an upper layer wiring is formed. | 08-20-2015 |