Patent application number | Description | Published |
20090233434 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICES - In semiconductor devices and methods of manufacturing semiconductor devices, a zirconium source having zirconium, carbon and nitrogen is provided onto a substrate to form an adsorption layer of the zirconium source on the substrate. A first purging process is performed to remove a non-adsorbed portion of the zirconium source. An oxidizing gas is provided onto the adsorption layer to form an oxidized adsorption layer of the zirconium source on the substrate. A second purging process is performed to remove a non-reacted portion of the oxidizing gas. A nitriding gas is provided on the oxidized adsorption layer to form a zirconium carbo-oxynitride layer on the substrate, and a third purging process is provided to remove a non-reacted portion of the nitriding gas. | 09-17-2009 |
20090246949 | Methods of manufacturing semiconductor devices - In a semiconductor device and a method of manufacturing a semiconductor device, a lower electrode is formed on a semiconductor substrate. A first zirconium oxide layer is formed on the lower electrode by performing a first deposition process using a first zirconium source and a first oxidizing gas. A zirconium carbo-oxynitride layer is formed on the first zirconium oxide layer by performing a second deposition process using a second zirconium source, a second oxidizing gas and a nitriding gas, and an upper electrode is formed on the zirconium carbo-oxynitride layer. A zirconium oxide-based composite layer having a high dielectric constant and a thin equivalent oxide thickness can be obtained. | 10-01-2009 |
20100167533 | METHOD OF FABRICATING SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - A method of fabricating a semiconductor integrated circuit (IC) device can include forming a first silicide layer on at least a portion of a transistor on a substrate, forming nitrogen in the first silicide layer to form a second silicide layer, forming a first stress layer having a tensile stress on the substrate having the transistor formed thereon, and irradiating the first stress layer with ultraviolet (UV) light to form a second stress layer having greater tensile stress than the first stress layer. | 07-01-2010 |
20100171182 | METHOD OF FORMING A SEMICONDUCTOR DEVICE HAVING SELECTIVE STRESS RELAXATION OF ETCH STOP LAYER - A strained semiconductor device includes a first plurality of transistors spaced with a first gate pitch, a second plurality of transistors spaced with a second gate pitch greater than the first gate pitch, and an etch stop layer disposed on the first and second pluralities of transistors. The etch stop layer between each of the second plurality of transistors has a greater proportion of a stress-altering material than the etch stop layer between each of the first plurality of transistors. | 07-08-2010 |
20110018044 | ETCH STOP LAYERS AND METHODS OF FORMING THE SAME - A semiconductor device includes a MOSFET, and a plurality of stress layers disposed on the MOSFET, wherein the stress layers include a first stress layer disposed on the MOSFET and a second stress layer disposed on the first stress layer, the first stress layer has a first stress and the second stress layer has a second stress, and the first stress is different from the second stress. | 01-27-2011 |
Patent application number | Description | Published |
20120315760 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device includes providing a substrate having a gate structure, a source region, and a drain region formed thereon, and the gate structure includes a gate insulating layer and a gate electrode. The method also includes forming a first stress layer on the substrate, removing the first stress layer, and forming a second stress layer on the substrate. | 12-13-2012 |
20130320434 | SEMICONDUCTOR DEVICE HAVING EMBEDDED STRAIN-INDUCING PATTERN AND METHOD OF FORMING THE SAME - In a semiconductor device, a first active region has a first Σ-shape, and the second active region has a second Σ-shape. When a line that is perpendicular to the substrate and passes a side surface of a first gate electrode in the first region is defined as a first vertical line, when a line that is perpendicular to the substrate and passes a side surface of a second gate electrode in the second region is defined as a second vertical line, when a shortest distance between the first vertical line and the first trench is defined as a first horizontal distance, and when a shortest distance between the second vertical line and the second trench is defined as a second horizontal distance, a difference between the first horizontal distance and the second horizontal distance is equal to or less than 1 nm. | 12-05-2013 |
20140138745 | SEMICONDUCTOR DEVICES INCLUDING A STRESSOR IN A RECESS AND METHODS OF FORMING THE SAME - Semiconductor devices including a stressor in a recess and methods of forming the semiconductor devices are provided. The methods may include forming a trench in an active region and the trench may include a notched portion of the active region. The methods may also include forming an embedded stressor in the trench. The embedded stressor may include a lower semiconductor layer and an upper semiconductor layer, which has a width narrower than a width of the lower semiconductor layer. A side of the upper semiconductor layer may not be aligned with a side of the lower semiconductor layer and an uppermost surface of the upper semiconductor layer may be higher than an uppermost surface of the active region. | 05-22-2014 |
20150064870 | SEMICONDUCTOR DEVICE HAVING EMBEDDED STRAIN-INDUCING PATTERN AND METHOD OF FORMING THE SAME - In a semiconductor device, a first active region has a first Σ-shape, and the second active region has a second Σ-shape. When a line that is perpendicular to the substrate and passes a side surface of a first gate electrode in the first region is defined as a first vertical line, when a line that is perpendicular to the substrate and passes a side surface of a second gate electrode in the second region is defined as a second vertical line, when a shortest distance between the first vertical line and the first trench is defined as a first horizontal distance, and when a shortest distance between the second vertical line and the second trench is defined as a second horizontal distance, a difference between the first horizontal distance and the second horizontal distance is equal to or less than 1 nm. | 03-05-2015 |
20150214329 | SEMICONDUCTOR DEVICES INCLUDING A STRESSOR IN A RECESS AND METHODS OF FORMING THE SAME - Semiconductor devices including a stressor in a recess and methods of forming the semiconductor devices are provided. The methods may include forming a trench in an active region and the trench may include a notched portion of the active region. The methods may also include forming an embedded stressor in the trench. The embedded stressor may include a lower semiconductor layer and an upper semiconductor layer, which has a width narrower than a width of the lower semiconductor layer. A side of the upper semiconductor layer may not be aligned with a side of the lower semiconductor layer and an uppermost surface of the upper semiconductor layer may be higher than an uppermost surface of the active region. | 07-30-2015 |