Patent application number | Description | Published |
20100230816 | SEMICONDUCTOR DEVICE AND METHOD FOR FORMING THE SAME - Semiconductor devices and methods for forming the same in which damages to a low-k dielectric layer therein can be reduced or even prevented are provided. A semiconductor device is provided, comprising a substrate. A dielectric layer with at least one conductive feature therein overlies the substrate. An insulating cap layer overlies the top surface of the low-k dielectric layer adjacent to the conductive feature, wherein the insulating cap layer comprises metal ions. | 09-16-2010 |
20130127055 | MECHANISMS OF FORMING DAMASCENE INTERCONNECT STRUCTURES - The mechanisms of forming an interconnect structures described above involves using a reflowed conductive layer. The reflowed conductive layer is thicker in smaller openings than in wider openings. The mechanisms may further involve forming a metal cap layer over the reflow conductive layer, in some embodiments. The interconnect structures formed by the mechanisms described have better electrical and reliability performance. | 05-23-2013 |
20140208283 | DUMMY SHOULDER STRUCTURE FOR LINE STRESS REDUCTION - Semiconductor integrated circuit line structures for improving a process window in the vicinity of dense-to-isolated pattern transition areas and a technique to implement the line structures in the layout process are described in this disclosure. The disclosed structure includes a semiconductor substrate, and a material layer above the substrate. The material layer has a closely spaced dense line structure, an isolated line structure next to the dense line structure, and a dummy line shoulder structure formed in the vicinity of the dense line and the isolated line structures. One end of the dummy line shoulder structure connects to the isolated line structure and another end extends away from the isolated line structure in an orientation substantially perpendicular to the isolated line structure. | 07-24-2014 |
20150187579 | STRESS-CONTROLLED FORMATION OF TiN HARD MASK - A method to form a titanium nitride (TiN) hard mask in the Damascene process of forming interconnects during the fabrication of a semiconductor device, while the type and magnitude of stress carried by the TiN hard mask is controlled. The TiN hard mask is formed in a multi-layered structure where each sub-layer is formed successively by repeating a cycle of processes comprising TiN and chlorine PECVD deposition, and N | 07-02-2015 |
20150187591 | METHOD OF FORMING PATTERN FOR SEMICONDUCTOR DEVICE - The present disclosure provides a method including providing a semiconductor substrate and forming a first layer and a second layer on the semiconductor substrate. The first layer is patterned to provide a first element, a second element, and a space interposing the first and second elements. Spacer elements are then formed on the sidewalls on the first and second elements of the first layer. Subsequently, the second layer is etched using the spacer elements and the first and second elements as a masking element. | 07-02-2015 |
20150235963 | SEMICONDUCTOR DEVICE HAVING INTERCONNECT LAYER THAT INCLUDES DIELECTRIC SEGMENTS INTERLEAVED WITH METAL COMPONENTS - The present disclosure provides a method of fabricating a semiconductor device. The method includes forming a patterned dielectric layer having a plurality of first openings. The method includes forming a conductive liner layer over the patterned dielectric layer, the conductive liner layer partially filling the first openings. The method includes forming a trench mask layer over portions of the conductive liner layer outside the first openings, thereby forming a plurality of second openings, a subset of which are formed over the first openings. The method includes depositing a conductive material in the first openings to form a plurality of vias and in the second openings to form a plurality of metal lines. The method includes removing the trench mask layer. | 08-20-2015 |
20150371943 | SEMICONDUCTOR DEVICE - Semiconductor devices and methods for forming the same in which damages to a low-k dielectric layer therein can be reduced or even prevented are provided. A semiconductor device is provided, comprising a substrate. A dielectric layer with at least one conductive feature therein overlies the substrate. An insulating cap layer overlies the top surface of the low-k dielectric layer adjacent to the conductive feature, wherein the insulating cap layer includes metal ions. | 12-24-2015 |
20150371955 | Interconnect Structure and Method of Forming the Same - A structure includes a first metal line and a second metal line disposed on a first side of a substrate, and a dielectric structure separating the first metal line and the second metal line. The dielectric structure includes a first dielectric layer over the first side of the substrate, a second dielectric layer over the first dielectric layer and extending from the first metal line to the second metal line. The first dielectric layer has a first dielectric constant larger than or substantially equal to a second dielectric constant of the second dielectric layer. The dielectric structure further includes a third dielectric layer between the first dielectric layer and the first metal line, the third dielectric layer having a third dielectric constant larger than the first dielectric constant. | 12-24-2015 |