| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 438639000 | Having viahole with sidewall component | 6 |
| 20080220608 | MODIFIED VIA BOTTOM STRUCTURE FOR RELIABILITY ENHANCEMENT - The present invention provides an interconnect structure that can be made in the BEOL which exhibits good mechanical contact during normal chip operations and does not fail during various reliability tests as compared with the conventional interconnect structures described above. The inventive interconnect structure has a kinked interface at the bottom of a via that is located within an interlayer dielectric layer. Specifically, the inventive interconnect structure includes a first dielectric layer having at least one metallic interconnect embedded within a surface thereof; a second dielectric layer located atop the first dielectric layer, wherein said second dielectric layer has at least one aperture having an upper line region and a lower via region, wherein the lower via region includes a kinked interface; at least one pair of liners located on at least vertical walls of the at least one aperture; and a conductive material filling the at least one aperture. | 09-11-2008 |
| 20120003831 | Methods of Forming Nonvolatile Memory Devices Using Nonselective and Selective Etching Techniques to Define Vertically Stacked Word Lines - Methods of forming nonvolatile memory devices include forming a stack of layers of different materials on a substrate. This stack includes a plurality of first layers of a first material and a plurality of second layers of a second material arranged in an alternating sequence of first and second layers. A selected first portion of the stack of layers is isotropically etched for a sufficient duration to define a first trench therein that exposes sidewalls of the alternating sequence of first and second layers. The sidewalls of each of the plurality of first layers are selectively etched relative to sidewalls of adjacent ones of the plurality of second layers. Another etching step is then performed to recess sidewalls of the plurality of second layers and thereby expose portions of upper surfaces of the plurality of first layers. These exposed portions of the upper surfaces of the plurality of first layers, which may act as word lines of a memory device, are displaced laterally relative to each other. | 01-05-2012 |
| 20120171861 | METHODS OF FABRICATING THREE-DIMENSIONAL SEMICONDUCTOR DEVICE - A method of fabricating a three-dimensional semiconductor device includes forming a stacked structure, and the stacked structure includes a first layer, a second layer, a third layer, and a fourth layer sequentially stacked on a substrate. The method also includes forming a sacrificial spacer on a sidewall of the stacked structure such that the sacrificial spacer exposes a sidewall of the third layer, and recessing the exposed sidewall of the third layer thereby forming a recess region between the second and fourth layers. | 07-05-2012 |
| 20140080299 | Processes for NAND Flash Memory Fabrication - Narrow word lines are formed in a NAND flash memory array using a double patterning process in which sidewall spacers define word lines. Sidewall spacers also define edges of select gates so that spacing between a select gate and the closest word line is equal to spacing between adjacent word lines. | 03-20-2014 |
| 20150364365 | ENHANCEMENT OF ISO-VIA RELIABILITY - A process of making a semiconductor structure. The process includes forming a wiring line; forming a reliability enhancement material on the wiring line; forming an interlayer dielectric (ILD) layer on the wiring line; forming a via opening through the ILD layer and reliability enhancement material to expose a surface of the wiring line; and filling the via opening with a metal to form a metal-filled via in contact with the wiring line wherein the reliability enhancement material is in direct contact with the metal-filled via; wherein the reliability enhancement material causes a compressive stress on the metal-filled via where it contacts the wiring line. Another embodiment includes the metal-filled via being an iso-via so that there is only one metal-filled via per wiring line. | 12-17-2015 |
| 20160020100 | Self-Aligned Double Patterning - A semiconductor device and a method of forming the same are provided. An embodiment comprises a target layer and masking layers over the target layer. First openings are formed in the uppermost layer of the masking layers. Spacers are formed along sidewalls of the first openings, remaining first openings having a first pattern. Second openings are formed in the uppermost layer of the masking layers, the second openings having a second pattern. The first pattern and the second pattern are partially transferred to the target layer. | 01-21-2016 |
