Patent application number | Description | Published |
20080207000 | METHOD OF MAKING HIGH-ASPECT RATIO CONTACT HOLE - A substrate has thereon a conductive region to be partially exposed by the contact hole, a contact etch stop layer overlying the substrate and covering the conductive region, and an inter-layer dielectric (ILD) layer on the contact etch stop layer. A photoresist pattern is formed on the ILD layer. The photoresist pattern has an opening directly above the conductive region. Using the photoresist pattern as an etch hard mask and the contact etch stop layer as an etch stop, an anisotropic dry etching process is performed to etch the ILD layer through the opening, thereby forming an upper hole region. The photoresist pattern is removed. An isotropic dry etching process is performed to dry etching the contact etch stop layer selective to the ILD layer through the upper hole region, thereby forming a widened, lower contact bottom that exposes an increased surface area of underlying conductive region. | 08-28-2008 |
20080248429 | METHOD OF FORMING A CONTACT HOLE - A method of forming a contact hole is provided. A pattern is formed in a photo resist layer. The pattern is exchanged into a silicon photo resist layer to form a first opening. Another pattern is formed in another photo resist layer. The pattern is exchanged into a silicon photo resist layer to form a second opening. The pattern having the first, and second openings is exchanged into the interlayer dielectric layer, and etching stop layer to form the contact hole. The present invention has twice exposure processes and twice etching processes to form the contact hole having small distance. | 10-09-2008 |
20090075441 | Method of removing a spacer, method of manufacturing a metal-oxide-semiconductor transistor device, and metal-oxide-semiconductor transistor device - A method of removing a spacer, a method of manufacturing a metal-oxide-semiconductor transistor device, and a metal-oxide-semiconductor transistor device, in which, before the spacer is removed, a protective layer is deposited on a spacer and on a material layer (such as a salicide layer) formed on the source/drain region and a gate electrode, such that the thickness of the protective layer on the spacer is smaller than the thickness on the material layer, and thereafter, the protective layer is partially removed such that the thickness of the protective layer on the spacer is approximately zero and a portion of the protective layer is remained on the material layer. Accordingly, when the spacer is removed, the material layer may be protected by the protective layer. | 03-19-2009 |
20090142931 | Cleaning method following opening etch - A cleaning method following an opening etching is provided. First, a semiconductor substrate having a dielectric layer is provided. The hard mask layer includes at least a metal layer. The opening etch is then carried out to form at least an opening in the dielectric layer. A nitrogen (N2) treatment process is performed to clean polymer residues having carbon-fluorine (C—F) bonds remained in the opening. Finally, a wet cleaning process is performed. | 06-04-2009 |
20090206403 | METHOD OF TRIMMING A HARD MASK LAYER, METHOD FOR FABRICATING A GATE IN A MOS TRANSISTOR, AND A STACK FOR FABRICATING A GATE IN A MOS TRANSISTOR - A stack structure for forming a gate of a MOS transistor includes a substrate including a plurality of shallow trench isolations therein; a dielectric layer, a conductive layer and a hard mask layer formed on the substrate in sequence; and a tri-layer stack comprising a top photo resist layer, a silicon-containing photo resist layer and a bottom anti-reflective coating (BARC) on the hard mask layer, wherein the silicon-containing photo resist layer comprises 10-30% silicon and the hard mask layer has a high etching selectivity ratio to the conductive layer. | 08-20-2009 |
20090258499 | METHOD OF FORMING AT LEAST AN OPENING USING A TRI-LAYER STRUCTURE - A method of forming openings is disclosed. A substrate is first provided, and the tri-layer structure is formed on the substrate. The tri-layer structure includes a bottom photoresist layer, a silicon-containing layer and a top photoresist layer form bottom to top. Subsequently, the top photoresist layer is patterned, and the silicon-containing layer is etched by utilizing the top photoresist layer as an etching mask to partially expose the bottom photoresist layer. Next, the partially exposed bottom photoresist layer is etched through two etching steps in turn by utilizing the patterned silicon-containing layer as an etching mask. The first etching step includes an oxygen gas and at least one non-carbon-containing halogen-containing gas, while the second etching step includes at least one halogen-containing gas. The substrate is thereafter etched by utilizing the patterned bottom photoresist layer as an etching mask to form at least an opening in the substrate. | 10-15-2009 |
20100258941 | DAMASCENE INTERCONNECTION STRUCTURE AND DUAL DAMASCENE PROCESS THEREOF - A dual damascene process is disclosed. A substrate having a base dielectric layer, a lower wiring layer inlaid in the base dielectric layer, and a cap layer capping the lower wiring layer is provided. A dielectric layer is deposited on the cap layer. A silicon oxide layer is deposited on the dielectric layer. A metal hard mask is formed on the silicon oxide layer. A trench opening is etched into the metal hard mask. A partial via feature is etched into the dielectric layer within the trench opening. The trench opening and the partial via feature are etch transferred into the dielectric layer, thereby forming a dual damascene opening, which exposes a portion of the cap layer. A liner removal step is performed to selectively remove the exposed cap layer from the dual damascene opening by employing CF | 10-14-2010 |
20100304569 | METHOD OF FORMING A CONTACT HOLE - A method of forming a contact hole is provided. A pattern is formed in a photo resist layer. The pattern is exchanged into a silicon photo resist layer to form a first opening. Another pattern is formed in another photo resist layer. The pattern is exchanged into a silicon photo resist layer to form a second opening. The pattern having the first, and second openings is exchanged into the interlayer dielectric layer, and etching stop layer to form the contact hole. The present invention has twice exposure processes and twice etching processes to form the contact hole having small distance. | 12-02-2010 |
20100317195 | METHOD FOR FABRICATING AN APERTURE - A method for fabricating an aperture is disclosed. The method includes the steps of: depositing a dielectric layer and a hard mask on surface of a semiconductor substrate; patterning the hard mask by forming an aperture in the hard mask; utilizing a gas containing C | 12-16-2010 |
20110006437 | OPENING STRUCTURE - An opening structure includes a semiconductor substrate, at least one dielectric layer disposed on the semiconductor substrate, wherein the dielectric layer has a plurality of openings exposing the semiconductor substrate, and each of the openings has a sidewall, a dielectric thin film covering at least a portion of the sidewall of each of the openings, and a metal layer filled in the openings. | 01-13-2011 |
20110068408 | STRAINED-SILICON CMOS TRANSISTOR - A strained-silicon CMOS transistor includes: a semiconductor substrate having a first active region, a second active region, and an isolation structure disposed between the first active region and the second active region; a first transistor, disposed on the first active region; a second transistor, disposed on the second active region; a first etching stop layer, disposed on the first transistor and the second transistor; a first stress layer, disposed on the first transistor; a second etching stop layer, disposed on the first transistor and the first stress layer, wherein an edge of the first stress layer is aligned with that of the second etching stop layer; a second stress layer, disposed on the second transistor; and a third etching stop layer disposed on the second transistor and the second stress layer, wherein an edge of the second stress layer is aligned with that of the third etching stop layer. | 03-24-2011 |
20110076814 | METHOD FOR FABRICATING STRAINED-SILICON CMOS TRANSISTOR - First, a semiconductor substrate having a first active region and a second active region is provided. The first active region includes a first transistor and the second active region includes a second transistor. A first etching stop layer, a stress layer, and a second etching stop layer are disposed on the first transistor, the second transistor and the isolation structure. A first etching process is performed by using a patterned photoresist disposed on the first active region as a mask to remove the second etching stop layer and a portion of the stress layer from the second active region. The patterned photoresist is removed, and a second etching process is performed by using the second etching stop layer of the first active region as a mask to remove the remaining stress layer and a portion of the first etching stop layer from the second active region. | 03-31-2011 |
20110130008 | METHOD TO CONTROL CRITICAL DIMENSION - A method to control a critical dimension is disclosed. First, a material layer and a composite patterned layer covering the material layer are provided. The composite patterned layer has a pattern defining a first critical dimension. Later, an etching gas is used to perform an etching step to etch the composite patterned layer and a pattern-transferring step is carried out so that thereby the underlying material layer has a transferred pattern with a second critical dimension which is substantially smaller than the first critical dimension. | 06-02-2011 |
20110139750 | METHOD OF REMOVING POST-ETCH RESIDUES - A method of removing post-etch residues is provided. First, a substrate is provided. An isolation layer covers the substrate and a conductive layer is embedded in the isolation layer. A dielectric layer and a hard mask cover the isolation layer. Then, an etching process is performed, and a patterned hard mask is formed by etching the hard mask by ions or atoms. After that, a charge-removing process is performed by using a conductive solution to cleaning the patterned hard mask and the dielectric layer so as to remove the charges accumulated on the patterned hard mask and the dielectric layer during the etch process. Finally, the post-etch residues on the patterned hard mask and the dielectric layer is removed. | 06-16-2011 |
20110174774 | METHOD OF DESCUMMING PATTERNED PHOTORESIST - A method of descumming a patterned photoresist is provided. First a material layer to be etched is provided. The material layer is covered by a patterned photoresist. Then a descum process is preformed to descum the edge of the patterned photoresist by nitrogen. Finally, the descummed patterned photoresist is used as a mask for etching the material layer. | 07-21-2011 |
20110248359 | SEMICONDUCTOR DEVICE HAVING METAL GATE AND MANUFACTURING METHOD THEREOF - A semiconductor device includes a semiconductor substrate, a gate dielectric layer formed on the semiconductor substrate, and at least a first conductive-type metal gate formed on the gate dielectric layer. The first conductive-type metal gate includes a filling metal layer and a U-type metal layer formed between the filling metal layer and the gate dielectric layer. A topmost portion of the U-type metal layer is lower than the filling metal layer. | 10-13-2011 |
20110250751 | METHOD FOR FILLING METAL - A method for filling a metal is disclosed. First, a substrate is provided. The substrate includes a metal material layer, a dielectric layer covering the metal material layer and a hard mask layer covering the dielectric layer. The hard mask layer has at least one opening to expose the underlying dielectric layer. Second, a dry etching step is performed to etch the dielectric layer through the opening to remove part of the dielectric layer to expose the metal material layer and to form a recess and leave some residues in the recess. Then a cleaning step is performed to remove the residues and to selectively remove part of the hard mask to substantially enlarge the opening. Later, a metal fills the recess through the enlarged opening. | 10-13-2011 |