Patent application number | Description | Published |
20080277745 | FIN FILLED EFFECT TRANSISTOR AND METHOD OF FORMING THE SAME - A fin field effect transistor and method of forming the same. The fin field effect transistor comprises a semiconductor substrate having a fin structure and between two trenches with top portions and bottom portions. The fin field effect transistor further comprises shallow trench isolations formed in the bottom portions of the trenches and a gate electrode over the fin structure and the shallow trench isolation, wherein the gate electrode is substantially perpendicular to the fin structure. The fin field effect transistor further comprises a gate dielectric layer along sidewalls of the fin structure and source/drain electrode formed in the fin structure. | 11-13-2008 |
20100055897 | WET CLEANING STRIPPING OF ETCH RESIDUE AFTER TRENCH AND VIA OPENING FORMATION IN DUAL DAMASCENE PROCESS - After trench line pattern openings and via pattern openings are formed in a inter-metal dielectric insulation layer of a semiconductor wafer using trench-first dual damascene process, the wafer is wet cleaned in a single step wet clean process using a novel wet clean solvent composition. The wet clean solvent effectively cleans the dry etch residue from the plasma etching of the dual damascene openings, etches back the TiN hard mask layer along the dual damascene openings and forms a recessed surface at the conductor metal from layer below exposed at the bottom of the via openings of the dual damascene openings. | 03-04-2010 |
20130157462 | 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. | 06-20-2013 |
20130196481 | METHOD OF PATTERNING FOR A SEMICONDUCTOR DEVICE - A method that includes forming a masking element on a semiconductor substrate and overlying a defined space. A first feature and a second feature are each formed on the semiconductor substrate. The space interposes the first and second features and extends from a first end of the first feature to a first end of the second feature. A third feature is then formed adjacent and substantially parallel the first and second features. The third feature extends at least from the first end of the first feature to the first end of the second feature. | 08-01-2013 |
20140203445 | MITIGATING PATTERN COLLAPSE - One or more techniques or systems for mitigating pattern collapse are provided herein. For example, a semiconductor structure for mitigating pattern collapse is formed. In some embodiments, the semiconductor structure includes an extreme low-k (ELK) dielectric region associated with a via or a metal line. For example, a first metal line portion and a second metal line portion are associated with a first lateral location and a second lateral location, respectively. In some embodiments, the first portion is formed based on a first stage of patterning and the second portion is formed based on a second stage of patterning. In this manner, pattern collapse associated with the semiconductor structure is mitigated, for example. | 07-24-2014 |
20140252625 | Method of Preventing a Pattern Collapse - A device includes a substrate and at least three conducting features embedded into the substrate. Each conducting feature includes a top width x and a bottom width y, such that a top and bottom width (x1, y1) of a first conducting feature has a dimension of (x1y2), and a top and bottom width (x3, y3) of a third conducting feature has a dimension of (x3>y3). The device also includes a gap structure isolating the first and second conducting features. The gap structure can include such things as air or dielectric. | 09-11-2014 |
20140252636 | INTERCONNECT STRUCTURE AND METHOD OF FORMING THE SAME - An interconnect structure and a method of forming an interconnect structure are disclosed. The interconnect structure includes a lower etch stop layer (ESL); a middle low-k (LK) dielectric layer over the lower ESL; a supporting layer over the middle LK dielectric layer; an upper LK dielectric layer over the supporting layer; an upper conductive feature in the upper LK dielectric layer, wherein the upper conductive feature is through the supporting layer; a gap along an interface of the upper conductive feature and the upper LK dielectric layer; and an upper ESL over the upper LK dielectric layer, the upper conductive feature, and the gap. | 09-11-2014 |
20140252648 | INTERCONNECT STRUCTURE AND METHOD OF FORMING THE SAME - An interconnect structure and a method of forming an interconnect structure are disclosed. The interconnect structure includes a first metal line and a second metal line over a substrate; a portion of a first low-k (LK) dielectric layer between the first metal line and the second metal line; and a second LK dielectric layer over the portion of the first LK dielectric layer. A top surface of the second LK dielectric layer is substantially coplanar with a top surface of the first metal line or the second metal line, and a thickness of the second LK dielectric layer is less than a thickness of the first metal line or a thickness of the second metal line. | 09-11-2014 |
20140256155 | Cleaning Solution for Preventing Pattern Collapse - A chemical solution for use in cleaning a patterned substrate includes water, from approximate 0.01 to 99.98 percent by weight; hydrogen peroxide, from 0 to 30 percent by weight; a pH buffering agent, from approximate 0.01 to 50 percent by weight; a metal chelating agent, from approximate 0 to 10 percent by weight; and a compound for lowering a surface tension of the combination of water, hydrogen peroxide, pH buffering agent, and metal chelating agent. Examples of the compound include an organic solvent, from approximate 0 to 95 percent by weight, or a non-ionic surfactant agent, from approximate 0 to 2 percent by weight. | 09-11-2014 |
20140264873 | Interconnection Structure And Method For Semiconductor Device - A semiconductor device is disclosed. The device includes a substrate, a first dielectric layer disposed over the substrate and a metal structure disposed in the first dielectric layer and below a surface of the first dielectric layer. The metal structure has a such shape that having an upper portion with a first width and a lower portion with a second width. The second width is substantially larger than the first width. The semiconductor device also includes a sub-structure of a second dielectric positioned between the upper portion of the metal structure and the first dielectric layer. | 09-18-2014 |
20140264902 | Novel Patterning Approach for Improved Via Landing Profile - The present disclosure is directed to a semiconductor structure and a method of manufacturing a semiconductor structure in which a spacer element is formed adjacent to a metal body embedded in a first dielectric layer of a first interconnect layer. A via which is misaligned relative to an edge of the metal body is formed in a second dielectric material in second interconnect layer disposed over the first interconnect layer and filled with a conductive material which is electrically coupled to the metal body. The method allows for formation of an interconnect structure without encountering the various problems presented by via substructure defects in the dielectric material of the first interconnect layer, as well as eliminating conventional gap-fill metallization issues. | 09-18-2014 |
20140264903 | INTERCONNECT STRUCTURE AND METHOD OF FORMING THE SAME - An interconnect structure and a method of forming an interconnect structure are disclosed. The interconnect structure includes a lower etch stop layer (ESL); an upper low-k (LK) dielectric layer over the lower ESL; a first conductive feature in the upper LK dielectric layer, wherein the first conductive feature has a first metal line and a dummy via contiguous with the first metal line, the dummy via extending through the lower ESL; a first gap along an interface of the first conductive feature and the upper LK dielectric layer; and an upper ESL over the upper LK dielectric layer, the first conductive feature, and the first gap. | 09-18-2014 |
20140264926 | Method and Apparatus for Back End of Line Semiconductor Device Processing - A via opening comprising an etch stop layer (ESL) opening and methods of forming the same are provided which can be used in the back end of line (BEOL) process of IC fabrication. A metal feature is provided with a first part within a dielectric layer and with a top surface. An ESL is formed with a bottom surface of the ESL above and in contact with the dielectric layer, and a top surface of the ESL above the bottom surface of the ESL. An opening at the ESL is formed exposing the top surface of the metal feature; wherein the opening at the ESL has a bottom edge of the opening above the bottom surface of the ESL, a first sidewall of the opening at a first side of the metal feature, and a second sidewall of the opening at a second side of the metal feature. | 09-18-2014 |
20140264932 | Patterning Approach to Reduce Via to Via Minimum Spacing - A method for patterning vias in a chip comprises forming a photomask layer including a gap on a patterned hardmask layer including a plurality of trenches and in contact with a uniform layer on a substrate, wherein the gap overlaps with two or more of the trenches. The method further comprises exposing a portion of the uniform layer under the gap using a photo exposure process, etching the exposed portion of the uniform layer with the photomask layer to obtain a plurality of vias extended partially through the substrate, and further etching the vias to obtain corresponding through-substrate vias. Another method comprises patterning a plurality of vias in a plurality of trenches of a hardmask layer on a substrate using a single photo exposure step and a photomask comprising a single gap that overlaps with the trenches. | 09-18-2014 |