Patent application number | Description | Published |
20120292639 | STRESSED SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING - A semiconductor device and method of manufacturing a semiconductor device is disclosed. The exemplary semiconductor device and method for fabricating the semiconductor device enhance carrier mobility. The method includes providing a substrate and forming a dielectric layer over the substrate. The method further includes forming a first trench within the dielectric layer, wherein the first trench extends through the dielectric layer and epitaxially (epi) growing a first active layer within the first trench and selectively curing with a radiation energy the dielectric layer adjacent to the first active layer. | 11-22-2012 |
20130049101 | SEMICONDUCTOR DEVICES UTILIZING PARTIALLY DOPED STRESSOR FILM PORTIONS AND METHODS FOR FORMING THE SAME - A semiconductor structure and method for forming the same provide a high mobility stressor material suitable for use as source/drain regions or other active devices. The structure is formed in a substrate opening and is doped with an impurity such as boron in upper portions but is void of the impurity in regions that contact the surfaces of the opening. The structure is therefore resistant to out-diffusion of the dopant impurity during high temperature operations and may be formed through selective deposition using reduced pressure chemical vapor deposition or reduced pressure epitaxial deposition. | 02-28-2013 |
20130193540 | Apparatus and Method for Reducing Dark Current in Image Sensors - A method for reducing dark current in image sensors comprises providing a backside illuminated image sensor wafer, depositing a first passivation layer on a backside of the backside illuminated image sensor wafer, depositing a plasma enhanced passivation layer on the first passivation layer and depositing a second passivation layer on the plasma enhanced passivation layer. | 08-01-2013 |
20130256663 | SURFACE TENSION MODIFICATION USING SILANE WITH HYDROPHOBIC FUNCTIONAL GROUP FOR THIN FILM DEPOSITION - A semiconductor structure that includes crystalline surfaces and amorphous hydrophilic surfaces is provided. The hydrophilic surfaces are treated with silane that includes a hydrophobic functional group, converting the hydrophilic surfaces to hydrophobic surfaces. Chemical vapor deposition or other suitable deposition methods are used to simultaneously deposit a material on both surfaces and due to the surface treatment, the deposited material exhibits superior adherence qualities on both surfaces. In one embodiment, the structure is an opening formed in a semiconductor substrate and bounded by at least one portion of a crystalline silicon surface and at least one portion of an amorphous silicon oxide structure. | 10-03-2013 |
20130295739 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - In a method of manufacturing a semiconductor device, a source/drain feature is formed over a substrate. A Si-containing layer is formed over the source/drain feature. A metal layer is formed over the Si-containing layer. A metal silicide layer is formed from the metal layer and Si in the Si-containing layer. | 11-07-2013 |
20140007905 | WAFER CLEANING SYSTEM AND METHOD USING ELECTROLYTIC GAS FOR BACK-END PURGE - A wafer cleaning system includes a platform, a plurality of wafer holding units over the platform, a front-end rinse nozzle, and a back-end purge unit. The plurality of wafer holding units is set to define a reference plane of wafer holding. The front-end rinse nozzle is above the reference plane and configured to dispense a first rinse fluid toward the reference plane. The back-end purge unit is below the reference plane and configured to dispense an electrolytic gas | 01-09-2014 |
20140054653 | TWO-STEP SHALLOW TRENCH ISOLATION (STI) PROCESS - An integrated circuit device and a process for making the integrated circuit device. The integrated circuit device including a substrate having a trench formed therein, a first layer of isolation material occupying the trench, a second layer of isolation material formed over the first layer of isolation material, an epitaxially-grown silicon layer on the substrate and horizontally adjacent the second layer of isolation material, and a gate structure formed on the epitaxially-grown silicon, the gate structure defining a channel. | 02-27-2014 |
20140179071 | TWO-STEP SHALLOW TRENCH ISOLATION (STI) PROCESS - Methods of making an integrated circuit are disclosed. An embodiment method includes etching a trench in a silicon substrate, depositing a first layer of isolation material in the trench, the first layer of isolation material projecting above surface of the silicon substrate, capping the first layer of isolation material by depositing a second layer of isolation material, the second layer of isolation material extending along at least a portion of sidewalls of the first layer of isolation material, epitaxially-growing a silicon layer upon the silicon substrate, the silicon layer horizontally adjacent to the second layer of isolation material, and forming a gate structure on the silicon layer, the gate structure defining a channel. | 06-26-2014 |
20140191299 | Dual Damascene Metal Gate - A method for fabricating a dual damascene metal gate includes forming a dummy gate onto a substrate, disposing a protective layer on the substrate and the dummy gate, and growing an expanding layer on sides of the dummy gate. The method further includes removing the protective layer, forming a spacer around the dummy gate, and depositing and planarizing a dielectric layer. The method further includes selectively removing the expanding layer, and removing the dummy gate. | 07-10-2014 |
20140239416 | Semiconductor device - A semiconductor device includes a source/drain feature in a substrate. The source/drain feature has an upper portion and a lower portion, the upper portion having a lower concentration of Ge than the lower portion. A Si-containing layer over the source/drain feature includes a metal silicide layer. | 08-28-2014 |
20140264478 | INTERFACE FOR METAL GATE INTEGRATION - A metal oxide semiconductor field effect transistor (MOSFET) includes a semiconductor substrate and a interlayer dielectric (ILD) over the semiconductor substrate. A gate structure is formed within the ILD and disposed on the semiconductor substrate, wherein the gate structure includes a high-k dielectric material layer and a metal gate stack. One or more portions of a protection layer are formed over the gate stack, and a contact etch stop layer is formed over the ILD and over the one or more portions of the protection layer. The metal gate stack includes aluminum and the protection layer includes aluminum oxide. | 09-18-2014 |
20140273385 | INTERFACE FOR METAL GATE INTEGRATION - A metal oxide semiconductor field effect transistor (MOSFET) includes a semiconductor substrate and an interlayer dielectric (ILD) over the semiconductor substrate. A gate structure is formed within the ILD and disposed on the semiconductor substrate, wherein the gate structure includes a high-k dielectric material layer and a metal gate stack. One or more portions of a protection layer are formed over the gate stack, and a contact etch stop layer is formed over the ILD and over the one or more portions of the protection layer. The metal gate stack includes aluminum and the protection layer includes aluminum oxide. | 09-18-2014 |