Patent application number | Description | Published |
20120286376 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A semiconductor device is disclosed. The semiconductor device includes: a substrate having a region; a gate structure disposed on the region of the substrate; a raised epitaxial layer disposed in the substrate adjacent to two sides of the gate structure, wherein the surface of the raised epitaxial layer is even with the surface of the gate structure. | 11-15-2012 |
20130089962 | SEMICONDUCTOR PROCESS - A semiconductor process includes the following steps. A substrate is provided. A gate structure is formed on the substrate. A spacer is formed on the substrate beside the gate structure. The spacer includes a first spacer and a second spacer located on the external surface of the first spacer. A first etching process is performed to etch and form at least a recess in the substrate beside the spacer and entirely remove the second spacer. The etching rate of the first etching process to the first spacer is lower than the etching rate of the first etching process to the second spacer. An epitaxial layer is formed in the recess. | 04-11-2013 |
20130171789 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing a semiconductor device includes providing a substrate having a first gate structure and a second gate structure formed thereon; blanketly forming a seal layer covering the first gate structure and the second gate structure on the substrate; performing a first ion implantation to form first light-doped drains (LDDs) in the substrate respectively at two sides of the first gate structure; and performing a second ion implantation to form second LDDs in the substrate respectively at two sides of the second gate structure; wherein at least one of the first ion implantation and the second ion implantation is performed to penetrate through the seal layer. | 07-04-2013 |
20130273706 | METHOD FOR FORMING SEMICONDUCTOR DEVICE - A method for forming a semiconductor device includes firstly providing a gate structure disposed on a substrate and a first nitride material layer disposed on the gate structure, secondly performing a protective step to modify the first nitride material layer in the presence of oxygen, then forming a second nitride material layer on the substrate, and later performing a removal step to remove the second nitride material layer without substantially slashing the modified first nitride material layer. | 10-17-2013 |
20130341685 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A manufacturing method for a semiconductor device includes providing a substrate having at least a gate structure formed thereon and a first spacer formed on sidewalls of the gate structure, performing an ion implantation to implant dopants into the substrate, forming a disposal spacer having at least a carbon-containing layer on the sidewalls of the gate structure, the carbon-containing layer contacting the first spacer, and performing a thermal treatment to form a protecting layer between the carbon-containing layer and the first spacer. | 12-26-2013 |
20140103402 | Semiconductor Structure Having Contact Plug and Metal Gate Transistor and Method of Making the Same - The present invention provides a semiconductor structure including at least a contact plug. The structure includes a substrate, a transistor, a first ILD layer, a second ILD layer and a first contact plug. The transistor is disposed on the substrate and includes a gate and a source/drain region. The first ILD layer is disposed on the transistor and levels with a top surface of the gate. The second ILD layer is disposed on the first ILD layer. The first contact plug is disposed in the first ILD layer and the second ILD layer and includes a first trench portion and a first via portion, wherein a boundary of the first trench portion and a first via portion is higher than the top surface of the gate. The present invention further provides a method of making the same. | 04-17-2014 |
20140151763 | SEMICONDUCTOR STRUCTURE HAVING CONTACT PLUG AND METHOD OF MAKING THE SAME - The present invention provides a semiconductor structure including a substrate, a transistor, a first ILD layer, a second ILD layer, a first contact plug, second contact plug and a third contact plug. The transistor is disposed on the substrate and includes a gate and a source/drain region. The first ILD layer is disposed on the transistor. The first contact plug is disposed in the first ILD layer and a top surface of the first contact plug is higher than a top surface of the gate. The second ILD layer is disposed on the first ILD layer. The second contact plug is disposed in the second ILD layer and electrically connected to the first contact plug. The third contact plug is disposed in the first ILD layer and the second ILD layer and electrically connected to the gate. The present invention further provides a method of making the same. | 06-05-2014 |
20140154852 | METHOD FOR FORMING SEMICONDUCTOR STRUCTURE HAVING METAL CONNECTION - The present invention provides a method for forming a semiconductor structure having a metal connect. A substrate is provided, and a transistor and a first ILD layer are formed thereon. A first contact plug is formed in the first ILD layer to electrically connect the source/drain region. A second ILD layer and a third ILD layer are formed on the first ILD layer. A first opening above the gate and a second opening above the first contact plug are formed, wherein a depth of the first contact plug is deeper than that of the second opening. Next, the first opening and the second opening are deepened. Lastly, a metal layer is filled into the first opening and the second opening to respectively form a first metal connect and a second metal connect. | 06-05-2014 |
20140162424 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - A method for fabricating semiconductor device is disclosed. The method includes the steps of: providing a substrate having a region; forming a gate structure on the region of the substrate; forming a raised epitaxial layer in the substrate adjacent to two sides of the gate structure; covering a dielectric layer on the gate structure and the raised epitaxial layer; and using a planarizing process to partially remove the dielectric layer and the gate structure such that the surface of the gate structure is even with the surface of the raised epitaxial layer. | 06-12-2014 |
20140199837 | METHOD OF FORMING SEMICONDUCTOR STRUCTURE HAVING CONTACT PLUG - A method of forming a semiconductor structure having at least a contact plug includes the following steps. At first, at least a transistor and an inter-layer dielectric (ILD) layer are formed on a substrate, and the transistor includes a gate structure and two source/drain regions. Subsequently, a cap layer is formed on the ILD layer and on the transistor, and a plurality of openings that penetrate through the cap layer and the ILD layer until reaching the source/drain regions are formed. Afterward, a conductive layer is formed to cover the cap layer and fill the openings, and a part of the conductive layer is further removed for forming a plurality of first contact plugs, wherein a top surface of a remaining conductive layer and a top surface of a remaining cap layer are coplanar, and the remaining cap layer totally covers a top surface of the gate structure. | 07-17-2014 |
20140241027 | Static random access memory unit cell structure and static random access memory unit cell layout structure - A static random access memory unit cell layout structure is disclosed, in which a slot contact is disposed on one active area and another one across from the one. A static random access memory unit cell structure and a method of fabricating the same are also disclosed, in which, a slot contact is disposed on drains of a pull-up transistor and a pull-down transistor, and a metal-zero interconnect is disposed on the slot contact and a gate line of another pull-up transistor. Accordingly, there is not an intersection of vertical and horizontal metal-zero interconnects, and there is no place suffering from twice etching. Leakage junction due to stitch recess can be avoided. | 08-28-2014 |
20140246730 | EMBEDDED RESISTOR - An embedded resistor including a first interdielectric layer, a cap layer, a resistive layer and a cap film is provided. The first interdielectric layer is located on a substrate. The cap layer is located on the first interdielectric layer, wherein the cap layer has a trench. The resistive layer conformally covers the trench, thereby having a U-shaped cross-sectional profile. The cap film is located in the trench and on the resistive layer, or, an embedded thin film resistor including a first interdielectric layer, a cap layer and a bulk resistive layer is provided. The first interdielectric layer is located on a substrate. The cap layer is located on the first interdielectric layer, wherein the cap layer has a trench. The bulk resistive layer is located in the trench. | 09-04-2014 |
20140264481 | PLUG STRUCTURE AND PROCESS THEREOF - A plug structure including a first dielectric layer, a second dielectric layer, a barrier layer and a second plug is provided. The first dielectric layer having a first plug therein is located on a substrate, wherein the first plug physically contacts a source/drain in the substrate. The second dielectric layer having an opening exposing the first plug is located on the first dielectric layer. The barrier layer conformally covers the opening, wherein the barrier layer has a bottom part and a sidewall part, and the bottom part is a single layer and physically contacts the first plug while the sidewall part is a dual layer. The second plug fills the opening and on the barrier layer. Moreover, a process of forming a plug structure is also provided. | 09-18-2014 |
20140284671 | SEMICONDUCTOR STRUCTURE AND PROCESS THEREOF - A semiconductor structure includes a metal gate, a second dielectric layer and a contact plug. The metal gate is located on a substrate and in a first dielectric layer, wherein the metal gate includes a work function metal layer having a U-shaped cross- sectional profile and a low resistivity material located on the work function metal layer. The second dielectric layer is located on the metal gate and the first dielectric layer. The contact plug is located on the second dielectric layer and in a third dielectric layer, thereby a capacitor is formed. Moreover, the present invention also provides a semiconductor process forming said semiconductor structure. | 09-25-2014 |
20140327080 | SEMICONDUCTOR STRUCTURE AND MANUFACTURING METHOD THEREOF - The present invention provides a manufacturing method of a semiconductor structure, comprising the following steps. First, a substrate is provided, a first dielectric layer is formed on the substrate, a metal gate is disposed in the first dielectric layer and at least one source/drain region (S/D region) is disposed on two sides of the metal gate, a second dielectric layer is then formed on the first dielectric layer, a first etching process is then performed to form a plurality of first trenches in the first dielectric layer and the second dielectric layer, wherein the first trenches expose each S/D region. Afterwards, a salicide process is performed to form a salicide layer in each first trench, a second etching process is then performed to form a plurality of second trenches in the first dielectric layer and the second dielectric layer, and the second trenches expose the metal gate. | 11-06-2014 |
20140342553 | Method for Forming Semiconductor Structure Having Opening - According to one embodiment of the present invention, a method for forming a semiconductor structure having an opening is provided. First, a substrate is provided, wherein a first region and a second region are defined on the substrate and an overlapping area of the first region and the second region is defined as a third region. Then, a material layer is formed on the substrate. A first hard mask and a second hard mask are formed on the material layer. The first hard mask in the first region is removed to form a patterned first hard mask. The second hard mask in the third region is removed to form a patterned second hard mask. Lastly, the material layer is patterned by using the patterned second hard mask layer as a mask to form at least an opening in the third region only. | 11-20-2014 |
20140349476 | MANUFACTURING METHOD FOR FORMING A SEMICONDUCTOR STRUCTURE - The present invention provides a manufacturing method of a semiconductor device, at least containing the following steps: first, a substrate is provided, wherein a first dielectric layer is formed on the substrate, at least one metal gate is formed in the first dielectric layer and at least one source drain region (S/D region) is disposed on two sides of the metal gate, at least one first trench is then formed in the first dielectric layer, exposing parts of the S/D region. The manufacturing method for forming the first trench further includes performing a first photolithography process through a first photomask and performing a second photolithography process through a second photomask, and at least one second trench is formed in the first dielectric layer, exposing parts of the metal gate, and finally, a conductive layer is filled in each first trench and each second trench. | 11-27-2014 |
20140361352 | SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREOF - A method for fabricating a semiconductor device is provided herein and includes the following steps. First, a first interlayer dielectric is formed on a substrate. Then, a gate electrode is formed on the substrate, wherein a periphery of the gate electrode is surrounded by the first interlayer dielectric. Afterwards, a patterned mask layer is formed on the gate electrode, wherein a bottom surface of the patterned mask layer is leveled with a top surface of the first interlayer dielectric. A second interlayer dielectric is then formed to cover a top surface and each side surface of the patterned mask layer. Finally, a self-aligned contact structure is formed in the first interlayer dielectric and the second interlayer dielectric. | 12-11-2014 |
20140361381 | MULTI-METAL GATE SEMICONDUCTOR DEVICE HAVING TRIPLE DIAMETER METAL OPENING - A method for manufacturing a semiconductor device and a device manufactured using the same are provided. A substrate with plural metal gates formed thereon is provided, wherein the adjacent metal gates are separated by insulation. A sacrificial layer is formed for capping the metal gates and the insulation, and the sacrificial layer and the insulation are patterned to form at least an opening for exposing the substrate. A silicide is formed corresponding to the opening at the substrate, and a conductive contact is formed in the opening. The conductive contact has a top area with a second diameter CD | 12-11-2014 |
20140374805 | SEMICONDUCTOR STRUCTURE AND MANUFACTURING METHOD THEREOF - A manufacturing method for a semiconductor device first provides a substrate having at least a first transistor formed thereon. The first transistor includes a first conductivity type. The first transistor further includes a first metal gate and a protecting layer covering sidewalls of the first metal gate. A portion of the first metal gate is removed to form a first recess and followed by removing a portion of the protecting layer to form a second recess. Then, an etch stop layer is formed in the second recess. | 12-25-2014 |
20150108553 | SEMICONDUCTOR DEVICE - A manufacturing method for a semiconductor device includes providing a substrate having at least agate structure formed thereon and a first spacer formed on sidewalls of the gate structure, performing an ion implantation to implant dopants into the substrate, forming a disposal spacer having at least a carbon-containing layer on the sidewalls of the gate structure, the carbon-containing layer contacting the first spacer, and performing a thermal treatment to form a protecting layer between the carbon-containing layer and the first spacer. | 04-23-2015 |
20150118835 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing a semiconductor device includes following steps. A substrate having at least a transistor embedded in an insulating material formed thereon is provided. The transistor includes a metal gate. Next, an etching process is performed to remove a portion of the metal gate to form a recess and to remove a portion of the insulating material to form a tapered part. After forming the recess and the tapered part of the insulating material, a hard mask layer is formed on the substrate to fill up the recess. Subsequently, the hard mask layer is planarized. | 04-30-2015 |
20150118836 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE - A method of fabricating a semiconductor device is disclosed. Provided is a substrate having a dummy gate formed thereon, a spacer on a sidewall of the dummy gate and a first dielectric layer surrounding the spacer. The dummy gate is removed to form a gate trench. A gate dielectric layer and at least one work function layer is formed in the gate trench. The work function layer and the gate dielectric layer are pulled down, and a portion of the spacer is laterally removed at the same time to widen a top portion of the gate trench. A low-resistivity metal layer is formed in a bottom portion of the gate trench. A hard mask layer is formed in the widened top portion of the gate trench. | 04-30-2015 |
20150145027 | METHOD FOR FABRICATING A SEMICONDUCTOR DEVICE - A method for fabricating a semiconductor device is provided according to one embodiment of the present invention and includes forming an interlayer dielectric on a substrate; forming a trench surrounded by the interlayer dielectric; depositing a dielectric layer and a work function layer on a surface of the trench sequentially and conformally; filling up the trench with a conductive layer; removing an upper portion of the conductive layer inside the trench; forming a protection film on a top surface of the interlayer dielectric and a top surface of the conductive layer through a directional deposition process; removing the dielectric layer exposed from the protection film; and forming a hard mask to cover the protection film. | 05-28-2015 |
20150179457 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE WITH PATERNED HARD MASK - A method for fabricating a semiconductor device includes the following steps. First, a first interlayer dielectric is formed on a substrate. Then, a gate electrode is formed on the substrate so that the periphery of the gate electrode is surrounded by the first interlayer dielectric. Afterwards, a patterned mask layer is formed on the gate electrode, and a bottom surface of the patterned mask layer is level with a top surface of the first interlayer dielectric. A spacer is then formed on each sidewall of the gate electrode. Subsequently, a second interlayer dielectric is formed to cover a top surface and each side surface of the patterned mask layer. Finally, a self-aligned contact structure is formed in the first interlayer dielectric and the second interlayer dielectric. | 06-25-2015 |
20150228734 | SEMICONDUCTOR STRUCTURE HAVING CONTACT PLUG AND METHOD OF MAKING THE SAME - The present invention provides a semiconductor structure including a substrate, a transistor, a first ILD layer, a second ILD layer, a first contact plug, second contact plug and a third contact plug. The transistor is disposed on the substrate and includes a gate and a source/drain region. The first ILD layer is disposed on the transistor. The first contact plug is disposed in the first ILD layer and a top surface of the first contact plug is higher than a top surface of the gate. The second ILD layer is disposed on the first ILD layer. The second contact plug is disposed in the second ILD layer and electrically connected to the first contact plug. The third contact plug is disposed in the first ILD layer and the second ILD layer and electrically connected to the gate. The present invention further provides a method of making the same. | 08-13-2015 |
20150243663 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE AND DEVICE MANUFACTURED USING THE SAME - A method for manufacturing a semiconductor device and a device manufactured using the same are provided. According to a dual silicide approach of the embodiment, a substrate having a first area with plural first metal gates and a second area with plural second metal gates is provided, wherein the adjacent first metal gates and the adjacent second metal gates are separated by an insulation. A dielectric layer is formed on the first and second metal gates and the insulation. The dielectric layer and the insulation at the first area are patterned by a first mask to form a plurality of first openings. Then, a first silicide is formed at the first openings. The dielectric layer and the insulation at the second area are patterned by a second mask to form a plurality of second openings. Then, a second silicide is formed at the second openings. | 08-27-2015 |
20150270261 | SEMICONDUCTOR PROCESS - A semiconductor structure includes a metal gate, a second dielectric layer and a contact plug. The metal gate is located on a substrate and in a first dielectric layer, wherein the metal gate includes a work function metal layer having a U-shaped cross-sectional profile and a low resistivity material located on the work function metal layer. The second dielectric layer is located on the metal gate and the first dielectric layer. The contact plug is located on the second dielectric layer and in a third dielectric layer, thereby a capacitor is formed. Moreover, the present invention also provides a semiconductor process forming said semiconductor structure. | 09-24-2015 |
20150357431 | MANUFACTURING METHOD FOR FORMING SEMICONDUCTOR STRUCTURE - The present invention provides a manufacturing method of a semiconductor structure, comprising the following steps. First, a substrate is provided, a first dielectric layer is formed on the substrate, a metal gate is disposed in the first dielectric layer and at least one source/drain region (S/D region) is disposed on two sides of the metal gate, a second dielectric layer is then formed on the first dielectric layer, a first etching process is then performed to form a plurality of first trenches in the first dielectric layer and the second dielectric layer, wherein the first trenches expose each S/D region. Afterwards, a salicide process is performed to form a salicide layer in each first trench, a second etching process is then performed to form a plurality of second trenches in the first dielectric layer and the second dielectric layer, and the second trenches expose the metal gate. | 12-10-2015 |
20160064327 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A semiconductor device is disclosed. The semiconductor device includes: a substrate; a first metal gate on the substrate; a first hard mask on the first metal gate; an interlayer dielectric (ILD) layer on top of and around the first metal gate; and a patterned metal layer embedded in the ILD layer, in which the top surface of the patterned metal layer is lower than the top surface of the first hard mask. | 03-03-2016 |
20160071800 | SEMICONDUCTOR STRUCTURE AND PROCESS THEREOF - A semiconductor structure including a dielectric layer, a titanium layer, a titanium nitride layer and a metal is provided. The dielectric layer is disposed on a substrate, wherein the dielectric layer has a via. The titanium layer covers the via, wherein the titanium layer has tensile stress lower than 1500 Mpa. The titanium nitride layer conformally covers the titanium layer. The metal fills the via. The present invention also provides a semiconductor process for forming said semiconductor structure. The semiconductor process includes the following steps. A dielectric layer is formed on a substrate, wherein the dielectric has a via. A titanium layer conformally covers the via, wherein the titanium layer has compressive stress lower than 500 Mpa. A titanium nitride layer is formed to conformally cover the titanium layer. A metal fills the via. | 03-10-2016 |
20160104612 | METHOD FOR CLEANING CONTACT HOLE AND FORMING CONTACT PLUG THEREIN - The method for cleaning a contact hole and forming a contact plug therein is provided. The method includes steps of: providing a silicon substrate; forming a contact hole in the silicon substrate; performing a pre-cleaning process to clean the contact hole; and forming a contact plug in the contact hole. The pre-cleaning process includes steps of: performing an oxide dry etching process; performing a first thermal annealing process with a temperature which is equal to or greater than 300° C.; performing a degassing process with a temperature which is equal to or greater than 300° C.; and performing an Ar-plasma etching process. | 04-14-2016 |
20160104637 | METHOD FOR MANUFACTURING A CONTACT STRUCTURE USED TO ELECTRICALLY CONNECT A SEMICONDUCTOR DEVICE - A method for manufacturing contact structure includes the steps of: providing a substrate having the semiconductor device and an interlayer dielectric thereon, wherein the semiconductor device includes a gate structure and a source/drain region; forming a patterned mask layer with a stripe hole on the substrate, and concurrently forming a stripe-shaped mask layer on the substrate; forming a patterned photoresist layer with a plurality of slot holes on the substrate, wherein at least one of the slot holes is disposed right above the source/drain region; and forming a contact hole in the interlayer dielectric by using the patterned mask layer, the stripe-shaped mask layer and the patterned photoresist layer as an etch mask, and the source/drain region is exposed from the bottom of the contact hole when the step of forming the contact hole is completed. | 04-14-2016 |
20160104645 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A method for fabricating semiconductor device is disclosed. The method includes the steps of: providing a substrate; forming a plurality of gate structures on the substrate; forming a first stop layer on the gate structures; forming a second stop layer on the first stop layer; forming a first dielectric layer on the second stop layer; forming a plurality of first openings in the first dielectric layer to expose the second stop layer; forming a plurality of second openings in the first dielectric layer and the second stop layer to expose the first stop layer; and removing part of the second stop layer and part of the first stop layer to expose the gate structures. | 04-14-2016 |
20160104646 | METHOD FOR FORMING SEMICONDUCTOR DEVICE - A manufacturing method for forming a semiconductor device includes: first, a substrate is provided, a fin structure is formed on the substrate, and a plurality of gate structures are formed on the fin structure, next, a hard mask layer and a first photoresist layer are formed on the fin structure, an first etching process is then performed on the first photoresist layer, afterwards, a plurality of patterned photoresist layers are formed on the remaining first photoresist layer and the remaining hard mask layer, where each patterned photoresist layer is disposed right above each gate structure, and the width of each patterned photoresist is larger than the width of each gate structure, and the patterned photoresist layer is used as a hard mask to perform an second etching process to form a plurality of second trenches. | 04-14-2016 |
Patent application number | Description | Published |
20120299058 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A semiconductor device comprising a silicon substrate, a gate structure and a heteroatom-containing epitaxial structure is provided. The gate structure is disposed on a surface of the silicon substrate. The heteroatom-containing epitaxial structure is disposed adjacent to the gate structure and has a major portion and an extension portion, wherein the major portion virtual vertically extends downwards into the silicon substrate from the surface; and the extension portion further extends downwards into the silicon substrate with a tapered cross-section continuing with the major portion. | 11-29-2012 |
20130089962 | SEMICONDUCTOR PROCESS - A semiconductor process includes the following steps. A substrate is provided. A gate structure is formed on the substrate. A spacer is formed on the substrate beside the gate structure. The spacer includes a first spacer and a second spacer located on the external surface of the first spacer. A first etching process is performed to etch and form at least a recess in the substrate beside the spacer and entirely remove the second spacer. The etching rate of the first etching process to the first spacer is lower than the etching rate of the first etching process to the second spacer. An epitaxial layer is formed in the recess. | 04-11-2013 |
20130234261 | SEMICONDUCTOR STRUCTURE AND FABRICATION METHOD THEREOF - A semiconductor structure includes a gate structure disposed on a substrate and having an outer spacer, a recess disposed in the substrate and adjacent to the gate structure, a doped epitaxial material filling up the recess, a cap layer including an undoped epitaxial material and disposed on the doped epitaxial material, a lightly doped drain disposed below the cap layer and sandwiched between the doped epitaxial material and the cap layer, and a silicide disposed on the cap layer and covering the doped epitaxial material to cover the cap layer together with the outer spacer without directly contacting the lightly doped drain. | 09-12-2013 |
20130316506 | SEMICONDUCTOR PROCESS - A semiconductor process includes the following steps. A gate structure is formed on a substrate. A main spacer is formed on the substrate beside the gate structure. A source/drain is formed in the substrate beside the main spacer. After the source/drain is formed, an epitaxial structure is formed in the substrate beside the main spacer. A gate structure may be respectively formed in a first area and a second area of a substrate. A main spacer is formed on the substrate respectively beside the two gate structures. A source/drain is formed in the substrate respectively beside the two spacers. After the two source/drains are formed, an epitaxial structure is formed in the substrate respectively beside the main spacers. | 11-28-2013 |
20140175527 | SEMICONDUCTOR STRUCTURE AND PROCESS THEREOF - A semiconductor structure includes a gate, a dual spacer and two recesses. The gate is located on a substrate. The dual spacer is located on the substrate beside the gate. The recesses are located in the substrate and the dual spacers, wherein the sidewall of each of the recesses next to the gate has a lower tip and an upper tip, and the lower tip is located in the substrate while the upper tip is an acute angle located in the dual spacer and close to the substrate. The present invention also provides a semiconductor process formed said semiconductor structure. | 06-26-2014 |
20140273368 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICES - A method of manufacturing a semiconductor device including the steps of providing a substrate having first type semiconductor regions and second type semiconductor regions, forming a conformal first epitaxy mask layer on the substrate, forming first type epitaxial layer in the substrate of the first type semiconductor regions, forming a conformal second epitaxy mask layer on the substrate, forming second type epitaxial layer in the substrate of the second type semiconductor regions, and removing the second epitaxy mask layer. | 09-18-2014 |
20140327055 | REPLACEMENT GATE PROCESS AND DEVICE MANUFACTURED USING THE SAME - A replacement gate process is disclosed. A substrate and a dummy gate structure formed on the substrate is provided, wherein the dummy gate structure comprises a dummy layer on the substrate, a hard mask layer on the dummy layer, spacers at two sides of the dummy layer and the hard mask layer, and a contact etch stop layer (CESL) covering the substrate, the spacers and the hard mask layer. The spacers and the CESL are made of the same material. Then, a top portion of the CESL is removed to expose the hard mask layer. Next, the hard mask layer is removed. Afterward, the dummy layer is removed to form a trench. | 11-06-2014 |
20140361373 | SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREOF - A semiconductor device includes a fin structure, an isolation structure, a gate structure and an epitaxial structure. The fin structure protrudes from the surface of the substrate and includes a top surface and two sidewalls. The isolation structure surrounds the fin structure. The gate structure overlays the top surface and the two sidewalls of a portion of the fin structure, and covers a portion of the isolation structure. The isolation structure under the gate structure has a first top surface and the isolation structure at two sides of the gate structure has a second top surface, wherein the first top surface is higher than the second top surface. The epitaxial layer is disposed at one side of the gate structure and is in direct contact with the fin structure. | 12-11-2014 |
20140363935 | SEMICONDUCTOR PROCESS - A semiconductor process includes the following steps. A substrate is provided. At least a fin-shaped structure is formed on the substrate and a gate structure partially overlapping the fin-shaped structure is formed. Subsequently, a dielectric layer is blanketly formed on the substrate, and a part of the dielectric layer is removed to form a first spacer on the fin-shaped structure and a second spacer besides the fin-shaped structure. Furthermore, the second spacer and a part of the fin-shaped structure are removed to form at least a recess at a side of the gate structure, and an epitaxial layer is formed in the recess. | 12-11-2014 |
20150035069 | FINFET AND METHOD FOR FABRICATING THE SAME - A method for fabricating fin-shaped field-effect transistor (FinFET) is disclosed. The method includes the steps of: providing a substrate; forming a fin-shaped structure in the substrate; forming a shallow trench isolation (STI) on the substrate and around the bottom portion of the fin-shaped structure; forming a first gate structure on the STI and the fin-shaped structure; and removing a portion of the STI for exposing the sidewalls of the STI underneath the first gate structure. | 02-05-2015 |
20150091059 | PROCESS FOR FABRICATING FIN-TYPE FIELD EFFECT TRANSISTOR (FinFET) STRUCTURE AND PRODUCT THEREOF - A process for fabricating a fin-type field effect transistor (FinFET) structure is described. A semiconductor substrate is patterned to form a fin. A spacer is formed on the sidewall of the fin. A portion of the fin is removed, such that the spacer and the surface of the remaining fm together define a cavity. A piece of a semiconductor compound is formed from the cavity, wherein the upper portion of the piece of the semiconductor compound laterally extends over the spacer. | 04-02-2015 |
20150093870 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE STRUCTURE - A method of fabricating a semiconductor device structure is provided. The method includes the following step. A gate dielectric layer is formed on a substrate. A gate electrode is on the gate dielectric layer. The gate dielectric layer exposed by the gate electrode is treated. A first etching process is performed to remove at least a portion of the gate dielectric layer exposed by the gate electrode. A spacer is formed on the sidewall of the gate electrode. A second etching process is performed to form recesses in the substrate beside the gate electrode. Besides, during the first etching process and the second etching process, an etching rate of the treated gate dielectric layer is greater than an etching rate of the untreated gate dielectric layer. | 04-02-2015 |
20150155386 | SEMICONDUCTOR DEVICE WITH EPITAXIAL STRUCTURE - A semiconductor device includes a fin structure, an isolation structure, a gate structure and an epitaxial structure. The fin structure protrudes from the surface of the substrate and includes a top surface and two sidewalls. The isolation structure surrounds the fin structure. The gate structure overlays the top surface and the two sidewalls of a portion of the fin structure, and covers a portion of the isolation structure. The isolation structure under the gate structure has a first top surface, and the isolation structure at two sides of the gate structure has a second top surface. The first top surface is higher than the second top surface. The epitaxial layer is disposed at one side of the gate structure and is in direct contact with the fin structure. | 06-04-2015 |
20150255563 | METHOD FOR MANUFACTURING A SEMICONDUCTOR DEVICE HAVING MULTI-LAYER HARD MASK - A method for manufacturing a semiconductor device is provided, comprising steps of providing a substrate with an underlying layer formed thereon; forming a gate layer overlying the underlying layer; and forming a multi-layer hard mask layer on the gate layer, and the multi-layer hard mask layer comprising a plurality of material layers and a top hard mask formed on the material layers, wherein the gate layer and the top hard mask contain the same element, such as silicon. | 09-10-2015 |
20150349088 | SEMICONDUCTOR STRUCTURE AND FABRICATION METHOD THEREOF - A semiconductor structure includes a gate structure disposed on a substrate and having an outer spacer, a recess disposed in the substrate and adjacent to the gate structure, a doped epitaxial material filling up the recess, a cap layer including an undoped epitaxial material and disposed on the doped epitaxial material, a lightly doped drain disposed below the cap layer and sandwiched between the doped epitaxial material and the cap layer, and a silicide disposed on the cap layer and covering the doped epitaxial material to cover the cap layer together with the outer spacer without directly contacting the lightly doped drain. | 12-03-2015 |
20150357436 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A method for fabricating semiconductor device is disclosed. The method includes the steps of: providing a substrate; forming a gate structure on the substrate; performing a first dry etching process to form a recess in the substrate adjacent to the gate structure; and performing a second dry etching process to expand the recess. | 12-10-2015 |
20150364568 | FABRICATION METHOD OF SEMICONDUCTOR STRUCTURE - A fabrication method of a semiconductor structure includes the following steps. First of all, a gate structure is provided on a substrate, and a first material layer is formed on the substrate and the gate structure. Next, boron dopant is implanted to the substrate, at two sides of the gate structure, to form a first doped region, and P type conductive dopant is implanted to the substrate, at the two sides of the gate structure, to form a second doped region. As following, a second material layer is formed on the first material layer. Finally, the second material layer, the first material layer and the substrate at the two sides of the gate structure are etched sequentially, and a recess is formed in the substrate, at the two sides of the gate structure, wherein the recess is positioned within the first doped region. | 12-17-2015 |
20150380506 | REPLACEMENT GATE PROCESS AND DEVICE MANUFACTURED USING THE SAME - A replacement gate process is disclosed. A substrate and a dummy gate structure formed on the substrate is provided, wherein the dummy gate structure comprises a dummy layer on the substrate, a hard mask layer on the dummy layer, spacers at two sides of the dummy layer and the hard mask layer, and a contact etch stop layer (CESL) covering the substrate, the spacers and the hard mask layer. The spacers and the CESL are made of the same material. Then, a top portion of the CESL is removed to expose the hard mask layer. Next, the hard mask layer is removed. Afterward, the dummy layer is removed to form a trench. | 12-31-2015 |
20160005838 | PROCESS FOR FABRICATING FIN-TYPE FIELD EFFECT TRANSISTOR (FinFET) STRUCTURE - A process for fabricating a fin-type field effect transistor (FinFET) structure is described. A semiconductor substrate is patterned to form a fin. A spacer is formed on the sidewall of the fin. A portion of the fin is removed, such that the spacer and the surface of the remaining fin together define a cavity. A piece of a semiconductor compound is formed from the cavity, wherein the upper portion of the piece of the semiconductor compound laterally extends over the spacer. | 01-07-2016 |
20160049467 | FIN FIELD EFFECT TRANSISTOR DEVICE AND FABRICATION METHOD THEREOF - A field effect transistor (FinFET) device includes a substrate, a fin structure, a shallow trench isolation and a gate structure. The fin structure is formed on a surface of the substrate and includes a base fin structure and an epitaxial fin structure formed on the base fin structure. The shallow trench isolation structure is formed on the surface of the substrate and includes a peripheral zone and a concave zone. The peripheral zone physically contacts with the fin structure. The gate structure is disposed on the epitaxial fin structure perpendicularly. A method of fabricating the aforementioned field effect transistor is also provided. | 02-18-2016 |
20160049496 | MOS TRANSISTOR AND SEMICONDUCTOR PROCESS FOR FORMING EPITAXIAL STRUCTURE - A MOS transistor including a gate structure, an epitaxial spacer and an epitaxial structure is provided. The gate structure is disposed on a substrate. The epitaxial spacer is disposed on the substrate besides the gate structure, wherein the epitaxial spacer includes silicon and nitrogen, and the ratio of nitrogen to silicon is larger than 1.3. The epitaxial structure is disposed in the substrate besides the epitaxial spacer. A semiconductor process includes the following steps for forming an epitaxial structure. A gate structure is formed on a substrate. An epitaxial spacer is formed on the substrate besides the gate structure for defining the position of an epitaxial structure, wherein the epitaxial spacer includes silicon and nitrogen, and the ratio of nitrogen to silicon is larger than 1.3. The epitaxial structure is formed in the substrate besides the epitaxial spacer. | 02-18-2016 |
20160064224 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - A method for fabricating semiconductor device is disclosed. The method includes the steps of: providing a substrate having a first region and a second region defined thereon; forming a plurality of fin-shaped structures on the substrate; forming a gate layer on the fin-shaped structures; forming a material layer on the gate layer; patterning the material layer for forming sacrificial mandrels on the gate layer in the first region; forming sidewall spacers adjacent to the sacrificial mandrels; removing the sacrificial mandrels; forming a patterned mask on the second region; and utilizing the patterned mask and the sidewall spacers to remove part of the gate layer. | 03-03-2016 |
20160064238 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - A method for fabricating semiconductor device is disclosed. The method includes the steps of: providing a substrate; forming a material layer on the substrate; forming a patterned first hard mask on the material layer; forming a patterned second hard mask on the material; utilizing the patterned first hard mask and the patterned second hard mask to remove part of the material layer for forming sacrificial mandrels; forming sidewall spacers adjacent to the sacrificial mandrels; removing the sacrificial mandrels; and using the sidewall spacers to remove part of the substrate. | 03-03-2016 |
20160064521 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICES - A method of manufacturing a semiconductor device including the steps of providing a substrate having first type semiconductor regions and second type semiconductor regions, forming a conformal first epitaxy mask layer on the substrate, forming first type epitaxial layer in the substrate of the first type semiconductor regions, forming a conformal second epitaxy mask layer on the substrate, forming second type epitaxial layer in the substrate of the second type semiconductor regions, and removing the second epitaxy mask layer. | 03-03-2016 |
20160071844 | FIN-SHAPED STRUCTURE AND MANUFACTURING METHOD THEREOF - A fin-shaped structure includes a substrate having a first fin-shaped structure located in a first area and a second fin-shaped structure located in a second area, wherein the second fin-shaped structure includes a ladder-shaped cross-sectional profile part. The present invention also provides two methods of forming this fin-shaped structure. In one case, a substrate having a first fin-shaped structure and a second fin-shaped structure is provided. A treatment process is performed to modify an external surface of the top of the second fin-shaped structure, thereby forming a modified part. A removing process is performed to remove the modified part through a high removing selectivity to the first fin-shaped structure and the second fin-shaped structure, and the modified part, thereby the second fin-shaped structure having a ladder-shaped cross-sectional profile part is formed. | 03-10-2016 |
20160111448 | FIN-SHAPED STRUCTURE AND METHOD THEREOF - A method of forming a fin-shaped structure includes the following steps. A substrate having at least a fin structure thereon is provided. A liner is formed on sidewalls of the fin structure. An oxide layer is formed between the fin structure and the substrate. The fin structure is removed until a bottom layer of the fin structure is reserved, to form a recess between the liner. A buffer epitaxial layer and an epitaxial layer are sequentially formed in the recess. A top part of the liner is removed until sidewalls of the epitaxial layer are exposed. Moreover, a fin-shaped structure formed by said method is also provided. | 04-21-2016 |