Patent application number | Description | Published |
20130026585 | MRAM Device and Fabrication Method Thereof - According to an embodiment, a magnetoresistive random access memory (MRAM) device comprises a bottom electrode, a stack, a dielectric material, a dielectric layer, and a conductive material. The bottom electrode is over a substrate, and the stack is over the bottom electrode. The stack comprises a magnetic tunnel junction (MTJ) and a top electrode. The dielectric material is along a sidewall of the stack, and the dielectric material has a height greater than a thickness of the MTJ and less than a stack height. The dielectric layer is over the stack and the dielectric material. The conductive material extends through the dielectric layer to the top electrode of the stack. | 01-31-2013 |
20130043549 | Hole First Hardmask Definition - A semiconductor device and a method of manufacture are provided, such as a MTJ device and a method of manufacturing a MTJ device. The MTJ device may include a bottom electrode, a MTJ stack, and a top electrode, wherein the top electrode is formed using a hole-filling technique. The top electrode may have slanted sidewalls. The MTJ stack may be formed by depositing corresponding MTJ layers. A patterned mask may be formed and patterned over the MTJ layers to form an opening defining the top electrode. The opening is filled with a conductive material to form the top electrode. The top electrode is then used as a mask to pattern the MTJ layers, thereby forming a MTJ stack. | 02-21-2013 |
20140024139 | Hole First Hardmask Definition - A semiconductor device and a method of manufacture are provided, such as a MTJ device and a method of manufacturing a MTJ device. The MTJ device may include a bottom electrode, a MTJ stack, and a top electrode, wherein the top electrode is formed using a hole-filling technique. The top electrode may have slanted sidewalls. The MTJ stack may be formed by depositing corresponding MTJ layers. A patterned mask may be formed and patterned over the MTJ layers to form an opening defining the top electrode. The opening is filled with a conductive material to form the top electrode. The top electrode is then used as a mask to pattern the MTJ layers, thereby forming a MTJ stack. | 01-23-2014 |
20150048298 | MEMORY CELL HAVING RESISTANCE VARIABLE FILM AND METHOD OF MAKING THE SAME - A manufacture includes a first electrode having an upper surface and a side surface, a resistance variable film over the first electrode, and a second electrode over the resistance variable film. The resistance variable film extends along the upper surface and the side surface of the first electrode. The second electrode has a side surface. A portion of the side surface of the first electrode and a portion of the side surface of the second electrode sandwich a portion of the resistance variable film. | 02-19-2015 |
20150060750 | Resistance Variable Memory Structure and Method of Forming the Same - A memory structure includes a first dielectric layer, having a first top surface, over a conductive structure. A first opening in the first dielectric layer exposes an area of the conductive structure, and has an interior sidewall. A first electrode structure, having a first portion and a second portion, is over the exposed area of the conductive structure. The second portion extends upwardly along the interior sidewall. A resistance variable layer is disposed over the first electrode. A second electrode structure, having a third portion and a fourth portion, is over the resistance variable layer. The third portion has a second top surface below the first top surface of the first dielectric layer. The fourth portion extends upwardly along the resistance variable layer. A second opening is defined by the second electrode structure. At least a part of a second dielectric layer is disposed in the second opening. | 03-05-2015 |
20150060974 | FLASH MEMORY STRUCTURE AND METHOD OF FORMING THE SAME - Embodiments of mechanisms of a semiconductor device structure are provided. The semiconductor device structure includes a substrate and a word line cell disposed over the substrate. The semiconductor device further includes a memory gate disposed over the substrate and adjacent to the word line cell and a spacer on a sidewall of the memory gate. The spacer and the word line cell are at opposite sides of the memory gate. In addition, an angle between a top surface of the memory gate and a sidewall of the memory gate is in a range from about 75° to about 90°. | 03-05-2015 |
20150061052 | Reversed Stack MTJ - An integrated circuit device includes a substrate and a magnetic tunneling junction (MTJ). The MTJ includes at least a pinned layer, a barrier layer, and a free layer. The MTJ is formed over a surface of the substrate. Of the pinned layer, the barrier layer, and the free layer, the free layer is formed first and is closest to the surface. This enables a spacer to be formed over a perimeter region of the free layer prior to etching the free layer. Any damage to the free layer that results from etching or other free layer edge-defining process is kept at a distance from the tunneling junction by the spacer. | 03-05-2015 |
20150147825 | MRAM Device and Fabrication Method Thereof - According to an embodiment, a magnetoresistive random access memory (MRAM) device comprises a bottom electrode, a stack, a dielectric material, a dielectric layer, and a conductive material. The bottom electrode is over a substrate, and the stack is over the bottom electrode. The stack comprises a magnetic tunnel junction (MTJ) and a top electrode. The dielectric material is along a sidewall of the stack, and the dielectric material has a height greater than a thickness of the MTJ and less than a stack height. The dielectric layer is over the stack and the dielectric material. The conductive material extends through the dielectric layer to the top electrode of the stack. | 05-28-2015 |