Patent application number | Description | Published |
20090137119 | NOVEL SEAL ISOLATION LINER FOR USE IN CONTACT HOLE FORMATION - A method is disclosed for etching a contact hole in a stack of dielectric layers. The method minimizes bridging defects between the contact hole and adjacent conductive structures. A substrate has a conductive material layer and an active device disposed thereon. An etch stop layer covers the device and the conductive material, A layer of interlevel dielectric and antireflective coating layers are then provided. A hole is etched through the stack using patterned photoresist. Ashing is used to remove all but the etch stop layer and the interlevel dielectric layer. An isolation liner is deposited over the interlevel dielectric layer, the sidewall surfaces of the hole and the exposed upper surface of the etch stop layer. Another etch removes the isolation liner disposed over the exposed upper surface of the etch stop layer, and removes the underlying etch stop layer to expose an upper surface of the conductive material layer. | 05-28-2009 |
20100048007 | HIGH PLANARIZING METHOD FOR USE IN A GATE LAST PROCESS - A method for performing a chemical-mechanical polishing (CMP) is provided. The method includes processing a semiconductor substrate to form a dummy gate structure on the substrate, to form a hard mask on the dummy gate structure, and to form a contact etch stop layer (CESL) and an interlayer dielectric (ILD) layer on the hard mask, performing a first CMP process with a first slurry to modify a non-planar topography of the ILD layer, performing a second CMP process with a second slurry to remove the hard mask, and performing a third CMP process with a third slurry to remove an interfacial layer that forms between the dummy gate and hard mask during semiconductor processing. | 02-25-2010 |
20120094485 | METHOD OF FORMING CONTACTS FOR A SEMICONDUCTOR DEVICE - The present disclosure provides a method of fabricating a semiconductor device. The method includes forming a layer over a substrate. The method includes forming a first opening in the layer that exposes a first region of the substrate. The method includes removing a first oxidation layer formed over the first region through a first sputtering process. The method includes filling the first opening with a conductive material. The method includes forming a second opening in the layer that exposes a second region of the substrate, the second region being different from the first region. The method includes removing a second oxidation layer formed over the second region through a second sputtering process. One of the first and second sputtering processes is more powerful than the other. | 04-19-2012 |
20130056837 | SELF-ALIGNED INSULATED FILM FOR HIGH-K METAL GATE DEVICE - A method of making an integrated circuit includes providing a semiconductor substrate and forming a gate dielectric over the substrate, such as a high-k dielectric. A metal gate structure is formed over the semiconductor substrate and the gate dielectric and a thin dielectric film is formed over that. The thin dielectric film includes oxynitride combined with metal from the metal gate. The method further includes providing an interlayer dielectric (ILD) on either side of the metal gate structure. | 03-07-2013 |
20130069174 | CONTACT FOR HIGH-K METAL GATE DEVICE - A method of making an integrated circuit includes providing a substrate with a high-k dielectric and providing a polysilicon gate structure over the high-k dielectric. A doping process is performed on the substrate adjacent to the polysilicon gate structure, after which the polysilicon gate structure is removed and replaced with a metal gate structure. An interlayer dielectric (ILD) is deposited over the metal gate structure and the doped substrate, and a dry etch process forms a trench in the ILD to a top surface of the metal gate structure. After the dry etch process, a wet etch process forms an undercut near the top surface of the metal gate structure. The trench and undercut are then filled with a conductive material. | 03-21-2013 |
20130200461 | Semiconductor Device and Method of Forming the Same - A semiconductor device and method for fabricating a semiconductor device is disclosed. An exemplary semiconductor device includes a semiconductor substrate including a first device disposed in a first device region, the first device including a first gate structure, first gate spacers formed on the sidewalls of the first gate structure, and first source and drain features and a second device disposed in a second device region, the second device including a second gate structure, second gate spacers formed on the sidewalls of the second gate structure, and second source and drain features. The semiconductor device further includes a contact etch stop layer (CESL) disposed on the first and second gate spacers and interconnect structures disposed on the first and second source and drain features. The interconnect structures are in electrical contact with the first and second source and drain features and in contact with the CESL. | 08-08-2013 |
20130328115 | Contact for High-K Metal Gate Device - An integrated circuit includes a semiconductor substrate including a source region and a drain region and a gate dielectric over the semiconductor substrate. A metal gate structure is over the semiconductor substrate and the gate dielectric and between the source and drain regions. The integrated circuit further includes an interlayer dielectric (ILD) over the semiconductor substrate. First and second contacts extend through the ILD and adjacent the source and drain regions, respectively, and a third contact extends through the ILD and adjacent a top surface of the metal gate structure. The third contact further extends into an undercut region of the metal gate structure. | 12-12-2013 |
20140367802 | SELF-ALIGNED INSULATED FILM FOR HIGH-K METAL GATE DEVICE - An integrated circuit includes a semiconductor substrate, a gate dielectric over the substrate, a metal gate structure over the semiconductor substrate and the gate dielectric, a dielectric film on the metal gate structure, the dielectric film comprising oxynitride combined with metal from the metal gate, and an interlayer dielectric (ILD) on either side of the metal gate structure. | 12-18-2014 |
20150021672 | CONTACT FOR HIGH-K METAL GATE DEVICE - An integrated circuit having an improved gate contact and a method of making the circuit are provided. In an exemplary embodiment, the method includes receiving a substrate. The substrate includes a gate stack disposed on the substrate and an interlayer dielectric disposed on the gate stack. The interlayer dielectric is first etched to expose a portion of the gate electrode, and then the exposed portion of the gate electrode is etched to form a cavity. The cavity is shaped such that a portion of the gate electrode overhangs the electrode. A conductive material is deposited within the cavity and in electrical contact with the gate electrode. In some such embodiments, the etching of the gate electrode forms a curvilinear surface of the gate electrode that defines the cavity. | 01-22-2015 |