Patent application number | Description | Published |
20130146993 | SEMICONDUCTOR STRUCTURE HAVING A POLYSILICON STRUCTURE AND METHOD OF FORMING SAME - The present application discloses a method of forming a semiconductor structure. In at least one embodiment, the method includes forming a polysilicon layer over a substrate. A mask layer is formed over the polysilicon layer. The mask layer is patterned to form a patterned mask layer. A polysilicon structure is formed by etching the polysilicon layer using the patterned mask layer as a mask. The polysilicon structure has an upper surface and a lower surface, and the etching of the polysilicon layer is arranged to cause a width of the upper surface of the polysilicon structure greater than that of the lower surface of the polysilicon structure. | 06-13-2013 |
20130181262 | Performing Treatment on Stressors - A method includes forming a gate stack over a semiconductor substrate, wherein the gate stack includes a gate dielectric and a gate electrode over the gate dielectric. A portion of the semiconductor substrate adjacent to the gate stack is recessed to form a recess. A semiconductor region is epitaxially grown in the recess. The semiconductor region is implanted with a p-type impurity or an n-type impurity. A dry treatment is performed on the semiconductor region. | 07-18-2013 |
20140246736 | High-K Film Apparatus and Method - Disclosed herein is a method forming a device comprising forming a high-k layer over a substrate and applying a dry plasma treatment to the high-k layer and removing at least a portion of one or more impurity types from the high-k layer. The dry plasma treatment may be chlorine, fluorine or oxygen plasma treatment. A cap layer may be applied on the high-k layer and a metal gate formed on the cap layer. An interfacial layer may optionally be formed on the substrate, with the high-k layer is formed on the interfacial layer. The high-k layer may have a dielectric constant greater than 3.9, and the cap layer may optionally be titanium nitride. The plasma treatment may be applied after the high-k layer is applied and before the cap layer is applied or after the cap layer is applied. | 09-04-2014 |
20140264589 | SEMICONDUCTOR STRUCTURE PROFILE - One or more embodiments of techniques or systems for forming a semiconductor structure are provided herein. In some embodiments, a semiconductor structure includes a substrate, a first lightly doped drain (LDD), a second LDD, an interface layer (IL), a high-k stack, a gate region, a dummy poly region, a first hard mask (HM) region, a second HM region, and a seal spacer region. The HK stack has a HK stack width and the gate region has a gate region width that is less than or substantially equal to the HK stack width. Because of the increased width of the HK stack, some of the HK stack likely overlaps some of the first LDD or the second LDD. In this manner, a saturation current and a threshold voltage associated with the semiconductor structure are improved. The increased width of the HK stack also protects more of the IL during LDD implanting. | 09-18-2014 |
20150024518 | METHOD OF FORMING A SELECTIVELY ADJUSTABLE GATE STRUCTURE - The present disclosure relates to a method of forming a gate structure that can be selectively adjusted to reduce critical-dimension (CD) variations. In some embodiments, the method is performed by forming a gate structure having a first length over a semiconductor substrate. The first length of the gate structure is measured and compared to a target length. If the first length differs from the target length by an amount that is greater than a threshold value, the first length is adjusted to converge upon the target length. By selectively adjusting the length of the gate structure, critical-dimension (CD) variations can be reduced, thereby increasing yield and reducing cost. | 01-22-2015 |
20150069466 | STRAINED SOURCE AND DRAIN (SSD) STRUCTURE AND METHOD FOR FORMING THE SAME - Embodiments of mechanisms of forming a semiconductor device structure are provided. The semiconductor device structure includes a substrate and a gate stack structure formed on the substrate. The semiconductor device structure also includes gate spacers formed on sidewalls of the gate stacks. The semiconductor device structure includes doped regions formed in the substrate. The semiconductor device structure also includes a strained source and drain (SSD) structure adjacent to the gate spacers, and the doped regions are adjacent to the SSD structure. The semiconductor device structure includes SSD structure has a tip which is closest to the doped region, and the tip is substantially aligned with an inner side of gate spacers. | 03-12-2015 |
20150069535 | SEMICONDUCTOR DEVICE WITH AN ANGLED SIDEWALL GATE STACK - A semiconductor device includes a metal gate stack. The metal gate stack includes a high-k gate dielectric and a metal gate electrode over the high-k gate dielectric. The metal gate electrode includes a first top surface and a second bottom surface substantially diametrically opposite the first top surface. The first top surface includes a first surface length and the second bottom surface includes a second surface length. The first surface length is larger than the second surface length. A method of forming a semiconductor device is provided. | 03-12-2015 |
20150115363 | MECHANISMS FOR FORMING FINFET DEVICE - Embodiments of mechanisms for forming a semiconductor device are provided. The semiconductor device includes a substrate. The semiconductor device also includes a first fin and a second fin over the substrate. The semiconductor device further includes a first gate electrode and a second gate electrode traversing over the first fin and the second fin, respectively. In addition, the semiconductor device includes a gate dielectric layer between the first fin and the first gate electrode and between the second fin and the second gate electrode. Further, the semiconductor device includes a dummy gate electrode over the substrate, and the dummy gate electrode is between the first gate electrode and the second gate electrode. An upper portion of the dummy gate electrode is wider than a lower portion of the dummy gate electrode. | 04-30-2015 |
20150187904 | SEMICONDUCTOR DEVICE STRUCTURE AND METHOD OF MANUFACTURING THE SAME - Embodiments of a method for forming a semiconductor device structure are provided. The method includes forming a gate stack over a semiconductor substrate and forming a sealing structure over a sidewall of the gate stack. The method also includes forming a dummy shielding layer over the semiconductor substrate, the sealing structure, and the gate stack. The method further includes performing an ion implantation process on the dummy shielding layer to form source and drain regions in the semiconductor substrate. In addition, the method includes removing the dummy shielding layer after the source and drain regions are formed. | 07-02-2015 |
20150214366 | EMBEDDED SOURCE OR DRAIN REGION OF TRANSISTOR WITH DOWNWARD TAPERED REGION UNDER FACET REGION - In some embodiments, a field effect transistor (FET) structure comprises a body structure, dielectric structures, a gate structure and a source or drain region. The gate structure is formed over the body structure. The source or drain region is embedded in the body structure beside the gate structure, and abuts and is extended beyond the dielectric structure. The source or drain region contains stressor material with a lattice constant different from that of the body structure. The source or drain region comprises a first region formed above a first level at a top of the dielectric structures and a second region that comprises downward tapered side walls formed under the first level and abutting the corresponding dielectric structures. | 07-30-2015 |
20150214367 | SEMICONDUCTOR STRUCTURE AND MANUFACTURING METHOD THEREOF - The present disclosure provides a semiconductor structure having a semiconductor layer; a gate with a conductive portion and a sidewall spacer; an interlayer dielectric (ILD) surrounding the sidewall spacer; and a nitrogen-containing protection layer, positioning at least on the top surface of the conductive portion of the gate. A top surface of the conductive portion and a top surface of the sidewall spacer are substantially coplanar. The nitrogen-containing protection layer is not covering the sidewall surface of the sidewall spacer. The present disclosure provides a method for manufacturing a semiconductor structure. The method includes forming a metal gate structure having a conductive portion and a sidewall spacer surrounded by a first ILD; forming a protection layer over the metal gate structure, and the protection layer is formed to cover at least the conductive portion of the metal gate structure; and forming a second ILD over the metal gate structure. | 07-30-2015 |
20150214368 | EMBEDDED SOURCE OR DRAIN REGION OF TRANSISTOR WITH LATERALLY EXTENDED PORTION - In some embodiments, in a method, a body structure with a gate structure configured thereon is provided. The gate structure comprises a gate side wall traversing the body structure. A spacer is formed over the gate side wall. A first recess is formed in the body structure. The first recess is formed beside the spacer and extending laterally under the spacer. A recess extension is formed under the first recess to extend a vertical depth of the first recess. Stressor material with a lattice constant different from that of the body structure is grown such that the extended first recess is filled. | 07-30-2015 |
20150228647 | INDENTED GATE END OF NON-PLANAR TRANSISTOR - In some embodiments, a semiconductor structure includes a substrate, a dielectric region, a non-planar structure and a gate stack. The dielectric region is formed on the substrate, and has a top surface. The non-planar structure protrudes from the top surface, and includes a channel region, and source and drain regions formed on opposite sides of the channel region. The gate stack is formed on the top surface, wraps around the channel region, and includes a gate top surface, and a gate side wall that does not intersect the non-planar structure. The gate side wall has a first distance from a vertical plane at a level of the top surface, and a second distance from the vertical plane at a level of the gate top surface. The vertical plane is vertical with respect to the top surface, and intersects the non-planar structure. The first distance is shorter than the second distance. | 08-13-2015 |
20150236123 | GATE STRUCTURE OF FIELD EFFECT TRANSISTOR WITH FOOTING - In some embodiments, an field effect transistor structure includes a first semiconductor structure and a gate structure. The first semiconductor structure includes a channel region, and a source region and a drain region. The source region and the drain region are formed on opposite ends of the channel region, respectively. The gate structure includes a central region and footing regions. The central region is formed over the first semiconductor structure. The footing regions are formed on opposite sides of the central region and along where the central region is adjacent to the first semiconductor structure. | 08-20-2015 |
20150236131 | FIN FIELD EFFECT TRANSISTOR (FINFET) DEVICE AND METHOD FOR FORMING THE SAME - Embodiments for forming a fin field effect transistor (FinFET) device structure are provided. The FinFET device structure includes a substrate and a first fin structure extending above the substrate. The FinFET also includes a first transistor formed on the first fin structure. The first transistor includes a first gate dielectric layer conformally formed on the first fin structure and a first gate electrode formed on the first gate dielectric layer. The FinFET further includes an inter-layer dielectric (ILD) structure formed adjacent to the first transistor. The first gate electrode is in direct contact with a sidewall of the ILD structure. | 08-20-2015 |
20150236132 | FIN FIELD EFFECT TRANSISTOR (FINFET) DEVICE AND METHOD FOR FORMING THE SAME - Embodiments for forming a fin field effect transistor (FinFET) device structure are provided. The FinFET device structure includes a fin structure extending above a substrate and a gate dielectric layer formed over the fin structure. The FinFET device structure also includes a gate electrode formed on the gate dielectric layer. The FinFET device structure further includes a number of gate spacers formed on sidewalls of the gate electrode. The gate spacers are in direct contact with the fin structure. | 08-20-2015 |
20150348965 | STRUCTURE AND FORMATION METHOD OF SEMICONDUCTOR DEVICE STRUCTURE WITH METAL GATE - A structure and a formation method of a semiconductor device structure are provided. The semiconductor device structure includes a semiconductor substrate and a gate stack over the semiconductor substrate. The gate stack includes a work function layer and a metal filling over the work function layer. The semiconductor device structure also includes a dielectric structure over the semiconductor substrate and adjacent to the gate stack. The dielectric structure is in direct contact with the work function layer and the metal filling. | 12-03-2015 |
20150380521 | STRAINED SOURCE AND DRAIN (SSD) STRUCTURE AND METHOD FOR FORMING THE SAME - Mechanisms of forming a semiconductor device structure are provided. The semiconductor device structure includes a substrate and a gate stack structure formed on the substrate. The semiconductor device structure also includes gate spacers formed on sidewalls of the gate stacks. The semiconductor device structure includes doped regions formed in the substrate. The semiconductor device structure also includes a strained source and drain (SSD) structure adjacent to the gate spacers, and the doped regions are adjacent to the SSD structure. The semiconductor device structure includes SSD structure has a tip which is closest to the doped region, and the tip is substantially aligned with an inner side of gate spacers. | 12-31-2015 |
20160005832 | High-K Film Apparatus and Method - A device may include: a high-k layer disposed on a substrate and over a channel region in the substrate. The high-k layer may include a high-k dielectric material having one or more impurities therein, and the one or more impurities may include at least one of C, Cl, or N. The one or more impurities may have a molecular concentration of less than about 50%. The device may further include a cap layer over the high-k layer over the channel region, the high-k layer separating the cap layer and the substrate. | 01-07-2016 |
20160027684 | SEMICONDUCTOR STRUCTURE AND MANUFACTURING METHOD THEREOF - A semiconductor structure includes a semiconductor substrate and a shallow trench isolation (STI). The STI includes a sidewall interfacing with the semiconductor substrate. The STI extrudes from a bottom portion of the semiconductor substrate, and the STI includes a bottom surface contacting the bottom portion of the semiconductor substrate; a top surface opposite to the bottom surface. The bottom surface includes a width greater than a width of the top surface. | 01-28-2016 |
20160043079 | Semiconductor Device and Method of Manufacture - In accordance with some embodiments, conductive material is removed from over a first plurality of fins and second plurality of fins, wherein the first plurality of fins is located within a small gate length region and the second plurality of fins is located in a large gate length region. The removal is performed by initially performed a dry etch with a low pressure and a high flow rate of at least one etchant, which causes the conductive material to have a larger thickness over the second plurality of fins than over the first plurality of fins. As such, when a wet etch is utilized to remove a remainder of the conductive material, dielectric material between the second plurality of fins and the conductive material is not damaged. | 02-11-2016 |
20160049483 | SEMICONDUCTOR STRUCTURE AND MANUFACUTING METHOD OF THE SAME - The present disclosure provide a semiconductor structure, including a substrate having a top surface; a gate over the substrate, the gate including a footing region in proximity to the top surface, the footing region including a footing length laterally measured at a height under 10 nm above the top surface; and a spacer surrounding a sidewall of the gate, including a spacer width laterally measured at a height of from about 10 nm to about 200 nm above the top surface. The footing length is measured, along the top surface, from an end of a widest portion of the footing region to a vertical line extended from an interface between a gate body and the spacer, and the spacer width is substantially equal to or greater than the footing length. | 02-18-2016 |
20160049498 | FIELD EFFECT TRANSISTOR WITH NON-DOPED CHANNEL - Some embodiments of the present disclosure provide a semiconductor structure, including a substrate having a top surface; a first doped region in proximity to the top surface; a non-doped region positioned in proximity to the top surface and adjacent to the first doped region, having a first width; a metal gate positioned over the non-doped region and over a portion of the first doped region, having a second width. The first width is smaller than the second width, and material constituting the non-doped region is different from material constituting the substrate. | 02-18-2016 |
20160071976 | SEMICONDUCTOR DEVICE STRUCTURE - A semiconductor device structure is provided. The semiconductor device structure includes a semiconductor substrate and a gate stack over the semiconductor substrate. The semiconductor device structure also includes a sealing structure over a sidewall of the gate stack , and a width ratio of the sealing structure to the gate stack is in a range from about 0.05 to about 0.7. The semiconductor device structure further includes an etch stop layer over the semiconductor substrate, the gate stack, and the sealing structure . The etch stop layer is in contact with the sealing structure. | 03-10-2016 |
20160071980 | SEMICONDUCTOR STRUCTURE AND FABRICATING METHOD THEREOF - A semiconductor structure and a method of fabricating the semiconductor structure are provided. The semiconductor structure includes a substrate; a metal gate structure on the substrate; and a spacer next to the metal gate structure having a skirting part extending into the metal gate structure and contacting the substrate. The metal gate structure includes a high-k dielectric layer and a metal gate electrode on the high-k dielectric layer. | 03-10-2016 |
20160079353 | SEMICONDUCTOR STRUCTURE AND MANUFACUTING METHOD OF THE SAME - Present disclosure provides a semiconductor structure, including a substrate having a center portion and an edge portion, an isolation layer over the substrate; a semiconductor fin with a top surface and a sidewall surface, partially positioning in the isolation layer, a first gate covering a portion of the top surface and a portion of the sidewall surface of the semiconductor fin, positioning at an edge portion of the substrate, and a second gate covering a portion of the top surface and a portion of the sidewall surface of the semiconductor fin, positioning at a center portion of the substrate. A lower width of the first gate in proximity to the isolation layer is smaller than an upper width of the first gate in proximity to top surface of the semiconductor fin. | 03-17-2016 |
20160087037 | SEMICONDUCTOR STRUCTURE WITH STRAINED SOURCE AND DRAIN STRUCTURES AND METHOD FOR FORMING THE SAME - A semiconductor structure and a method for forming the same are provided. The semiconductor structure includes a substrate and a first gate structure and a second gate structure formed over the substrate. The semiconductor structure further includes first recesses formed in the substrate adjacent to the first gate structure and first strained source and drain structures formed in the first recesses. The semiconductor structure further includes second recesses formed in the substrate adjacent to the second gate structure and second strained source and drain structures formed in the second recesses. In addition, each of the first recesses has a shape of a trapezoid, and each of the second recesses has a shape of an inverted trapezoid. | 03-24-2016 |
20160093537 | APPARATUS AND METHOD OF MANUFACTURING FIN-FET DEVICES - A method of manufacturing a Fin-FET device includes forming a plurality of fins in a substrate, which the substrate includes a center region and a periphery region surrounding the center region. A gate material layer is deposited over the fins, and the gate material layer is etched with an etching gas to form gates, which the etching gas is supplied at a ratio of a flow rate at the center region to a flow rate at the periphery region in a range from 0.33 to 3. | 03-31-2016 |
20160099324 | STRUCTURE AND FORMATION METHOD OF SEMICONDUCTOR DEVICE WITH GATE STACK - A structure and a formation method of a semiconductor device are provided. The semiconductor device includes a semiconductor substrate and a first gate electrode over the semiconductor substrate. The semiconductor device also includes a first gate dielectric layer between the first gate electrode and the semiconductor substrate. The semiconductor device further includes a second gate electrode over the semiconductor substrate. The second gate electrode has an upper portion and a lower portion between the upper portion and the semiconductor substrate, and the upper portion is wider than the lower portion. In addition, the semiconductor device includes a second gate dielectric layer between the second gate electrode and the semiconductor substrate. | 04-07-2016 |
20160099337 | GATE STRUCTURE HAVING DESIGNED PROFILE AND METHOD FOR FORMING THE SAME - A semiconductor structure and a method for forming the same are provided. The semiconductor structure includes a metal gate structure having curved sidewalls formed over a substrate. The semiconductor structure further includes spacers formed on the curved sidewalls of the metal gate structure. In addition, each curved sidewall of the metal gate structure has a top portion, a middle portion, and a bottom portion, and an angle between the middle portion and the bottom portion of the curved sidewall of the metal gate structure is smaller than 180° C. | 04-07-2016 |
20160111420 | FIN FIELD EFFECT TRANSISTOR (FINFET) DEVICE AND METHOD FOR FORMING THE SAME - A fin field effect transistor (FinFET) device structure and method for forming the FinFET device structure are provided. The FinFET structure includes a substrate, and the substrate includes a core region and an I/O region. The FinFET structure includes a first etched fin structure formed in the core region, and a second etched fin structure formed in the I/O region. The FinFET structure further includes a plurality of gate stack structures formed over the first etched fin structure and the second etched fin structure, and a width of the first etched fin structure is smaller than a width of the second etched fin structure. | 04-21-2016 |
20160111518 | Method and Structure for FinFET - A semiconductor device and method of forming the same are disclosed. The method includes receiving a substrate having an active fin, an oxide layer over the active fin, a dummy gate stack over the oxide layer, and a spacer feature over the oxide layer and on sidewalls of the dummy gate stack. The method further includes removing the dummy gate stack, resulting in a first trench; etching the oxide layer in the first trench, resulting in a cavity underneath the spacer feature; depositing a dielectric material in the first trench and in the cavity; and etching in the first trench so as to expose the active fin, leaving a first portion of the dielectric material in the cavity. | 04-21-2016 |
20160111540 | FIN FIELD EFFECT TRANSISTOR (FINFET) DEVICE AND METHOD FOR FORMING THE SAME - A fin field effect transistor (FinFET) device structure and method for forming FinFET device structure are provided. The FinFET structure includes a substrate and an isolation structure formed on the substrate. The FinFET structure also includes a fin structure extending above the substrate, and the fin structure is embedded in the isolation structure. The FinFET structure further includes an epitaxial structure formed on the fin structure, the epitaxial structure has a pentagon-like shape, and an interface between the epitaxial structure and the fin structure is lower than a top surface of the isolation structure. | 04-21-2016 |
20160111541 | GATE LAST SEMICONDUCTOR STRUCTURE AND METHOD FOR FORMING THE SAME - A semiconductor structure and a method for forming the same are provided. The semiconductor structure includes a substrate and a metal gate structure formed over a fin structure of the substrate. The semiconductor structure further includes a spacer formed on a sidewall of the metal gate structure and a source/drain structure formed in the fin structure. In addition, the spacer is in direct contact with the fin structure. | 04-21-2016 |