Patent application number | Description | Published |
20140252488 | Channel Epitaxial Regrowth Flow (CRF) - A Fin-FET fabrication approach and structure are provided using channel epitaxial regrowth flow (CRF). The method includes forming a Fin-FET structure including a Si line on a substrate, shallow trench isolation (STI) oxide on both sides of the Si line on the substrate, and a poly wall on top of and across the STI oxide and the Si line, wherein the Si line is higher than the STI oxide from the substrate. The method further includes thinning the STI oxide and the Si line while maintaining about the same height ratio of the Si line and the STI oxide, and forming a spacer wall adjacent to both sides of the poly wall and further adjacent to Si and STI oxide side walls under the poly wall uncovered due thinning the STI oxide and the Si line. | 09-11-2014 |
20140264725 | SILICON RECESS ETCH AND EPITAXIAL DEPOSIT FOR SHALLOW TRENCH ISOLATION (STI) - The embodiments described provide methods and semiconductor device areas for etching an active area region on a semiconductor body and epitaxially depositing a semiconductor layer overlying the active region. The methods enable the mitigation or elimination of problems encountered in subsequent manufacturing associated with STI divots. | 09-18-2014 |
20150097242 | Channel Epitaxial Regrowth Flow (CRF) - A Fin-FET fabrication approach and structure are provided using channel epitaxial regrowth flow (CRF). The method includes forming a Fin-FET structure including a Si line on a substrate, shallow trench isolation (STI) oxide on both sides of the Si line on the substrate, and a poly wall on top of and across the STI oxide and the Si line, wherein the Si line is higher than the STI oxide from the substrate. The method further includes thinning the STI oxide and the Si line while maintaining about the same height ratio of the Si line and the STI oxide, and forming a spacer wall adjacent to both sides of the poly wall and further adjacent to Si and STI oxide side walls under the poly wall uncovered due thinning the STI oxide and the Si line. | 04-09-2015 |
20150235897 | Reverse Tone Self-Aligned Contact - Some embodiments of the present disclosure relate to a method to form a source/drain self-aligned contact to a transistor or other semiconductor device. The method comprises forming a pair of gate structures over a substrate, and forming a source/drain region between the pair of gate structures. The method further comprises forming a sacrificial source/drain contact which is arranged over the source/drain region and which is arranged laterally between neighboring sidewalls of the pair of gate structures. The method further comprises forming a dielectric layer which extends over the sacrificial source/drain contact and over the pair of gate structures. The dielectric layer differs from the sacrificial source/drain contact. The method further comprises removing a portion of the dielectric layer over the sacrificial source/drain contact and subsequently removing the sacrificial source/drain contact to form a recess, and filling the recess with a conductive material to form a source/drain contact. | 08-20-2015 |
20150348796 | Nano Wire Structure and Method for Fabricating the Same - A device comprises a first group of nanowires having a first pattern, a second group of nanowires having a second pattern, a third group of nanowires having a third pattern and a fourth group of nanowires having a fourth pattern, wherein the first pattern, the second pattern, the third pattern and the fourth pattern form a repeating pattern. | 12-03-2015 |
20150348848 | SELF-ALIGNED NANOWIRE FORMATION USING DOUBLE PATTERNING - A method includes forming a pattern-reservation layer over a semiconductor substrate. The semiconductor substrate has a major surface. A first self-aligned multi-patterning process is performed to pattern a pattern-reservation layer. The remaining portions of the pattern-reservation layer include pattern-reservation strips extending in a first direction that is parallel to the major surface of the semiconductor substrate. A second self-aligned multi-patterning process is performed to pattern the pattern-reservation layer in a second direction parallel to the major surface of the semiconductor substrate. The remaining portions of the pattern-reservation layer include patterned features. The patterned features are used as an etching mask to form semiconductor nanowires by etching the semiconductor substrate. | 12-03-2015 |
20150364371 | SELF-ALIGNED INTERCONNECT WITH PROTECTION LAYER - An integrated circuit structure includes a first Inter-Layer Dielectric (ILD), a gate stack in the first ILD, a second ILD over the first ILD, a contact plug in the second ILD, and a dielectric protection layer on opposite sides of, and in contact with, the contact plug. The contact plug and the dielectric protection layer are in the second ILD. A dielectric capping layer is over and in contact with the contact plug. | 12-17-2015 |
20150364575 | SILICON RECESS ETCH AND EPITAXIAL DEPOSIT FOR SHALLOW TRENCH ISOLATION (STI) - Some embodiments of the present disclosure relate to a method. In this method, a semiconductor substrate, which has an active region disposed in the semiconductor substrate, is received. A shallow trench isolation (STI) structure is formed to laterally surround the active region. An upper surface of the active region bounded by the STI structure is recessed to below an upper surface of the STI structure. The recessed upper surface extends continuously between inner sidewalls of the STI structure and leaves upper portions of the inner sidewalls of the STI structure exposed. A semiconductor layer is epitaxially grown on the recessed surface of the active region between the inner sidewalls of the STI structure. A gate dielectric is formed over the epitaxially-grown semiconductor layer. A conductive gate electrode is formed over the gate dielectric. | 12-17-2015 |