Patent application number | Description | Published |
20130056826 | Multi-Fin Device and Method of Making Same - A multiple-fin device includes a substrate and a plurality of fins formed on the substrate. Source and drain regions are formed in the respective fins. A dielectric layer is formed on the substrate. The dielectric layer has a first thickness adjacent one side of a first fin and having a second thickness, different from the first thickness, adjacent an opposite side of the fin. A continuous gate structure is formed overlying the plurality of fins, the continuous gate structure being adjacent a top surface of each fin and at least one sidewall surface of at least one fin. By adjusting the dielectric layer thickness, channel width of the resulting device can be fine-tuned. | 03-07-2013 |
20130113073 | Integrated Circuit having a MOM Capacitor and Method of Making Same - An integrated circuit can include a MOM capacitor formed simultaneously with other devices, such as finFETs. A dielectric layer formed on a substrate has a first semiconductor fin therein and a second semiconductor fin therein. Respective top portions of the fins are removed to form respective recesses in the dielectric layer. First and second electrodes are formed in the recesses. The first and second electrodes and the interjacent dielectric layer form a MOM capacitor. | 05-09-2013 |
20130273705 | Multi-Fin Device and Method of Making Same - A multiple-fin device includes a substrate and a plurality of fins formed on the substrate. Source and drain regions are formed in the respective fins. A dielectric layer is formed on the substrate. The dielectric layer has a first thickness adjacent one side of a first fin and having a second thickness, different from the first thickness, adjacent an opposite side of the fin. A continuous gate structure is formed overlying the plurality of fins, the continuous gate structure being adjacent a top surface of each fin and at least one sidewall surface of at least one fin. By adjusting the dielectric layer thickness, channel width of the resulting device can be fine-tuned. | 10-17-2013 |
20140117454 | FinFET with Dummy Gate on Non-Recessed Shallow Trench Isolation (STI) - An embodiment fin field effect transistor (FinFET) device includes fins formed from a semiconductor substrate, a non-recessed shallow trench isolation (STI) region disposed between the fins, and a dummy gate disposed on the non-recessed STI region. | 05-01-2014 |
20140197458 | FinFET Device and Method of Fabricating Same - An integrated circuit structure includes a semiconductor substrate, and isolation regions extending into the semiconductor substrate, wherein the isolation regions have opposite sidewalls facing each other. A fin structure includes a silicon fin higher than top surfaces of the isolation regions, a germanium-containing semiconductor region overlapped by the silicon fin, silicon oxide regions on opposite sides of the germanium-containing semiconductor region, and a germanium-containing semiconductor layer between and in contact with the silicon fin and one of the silicon oxide regions. | 07-17-2014 |
20140239354 | FinFETs and Methods for Forming the Same - A finFET and methods for forming a finFET are disclosed. A structure comprises a substrate, a fin, a gate dielectric, and a gate electrode. The substrate comprises the fin. The fin has a major surface portion of a sidewall, and the major surface portion comprises at least one lattice shift. The at least one lattice shift comprises an inward or outward shift relative to a center of the fin. The gate dielectric is on the major surface portion of the sidewall. The gate electrode is on the gate dielectric. | 08-28-2014 |
20140239396 | Metal Gate and Gate Contact Structure for FinFET - An embodiment includes a substrate, wherein a portion of the substrate extends upwards, forming a fin, a gate dielectric over a top surface and sidewalls of the fin, a liner overlaying the gate dielectric, and an uninterrupted metallic feature over the liner a portion of the liner overlaying the gate dielectric, wherein the liner extends from a top surface of the uninterrupted metallic feature and covers sidewalls of the metallic feature, and wherein the gate dielectric, liner, and uninterrupted metallic feature collectively form a gate, a gate contact barrier, and a gate contact. | 08-28-2014 |
20140239404 | FInFET Structure and Method for Forming the Same - A method for forming FinFETs comprises forming a plurality of first fins and a plurality of second fins protruding over a substrate, wherein two adjacent first fins are separated from each other by a plurality of first isolation regions and two adjacent second fins are separated from each other by a plurality of second isolation regions. The method further comprises applying a first ion implantation process to the first isolation region, wherein dopants with a first polarity type are implanted in the first isolation region, applying a second ion implantation process to the second isolation region, wherein dopants with a second polarity type are implanted in the second isolation region and recessing the first isolation regions and the second isolation regions through an etching process. | 08-28-2014 |
20140252442 | Method and Structure for Vertical Tunneling Field Effect Transistor and Planar Devices - The present disclosure provides one embodiment of a method of forming a tunnel field effect transistor (TFET). The method includes forming a semiconductor mesa on a semiconductor substrate; performing a first implantation to the semiconductor substrate and the semiconductor mesa to form a drain of a first type conductivity; forming a first dielectric layer on the semiconductor substrate and sidewall of the semiconductor mesa; forming a gate stack on the sidewall of the semiconductor mesa and the first dielectric layer; forming a second dielectric layer on the first dielectric layer and the gate stack; and forming, on the semiconductor mesa, a source having a second type conductivity opposite to the first type conductivity. The gate stack includes a gate dielectric and a gate electrode on the gate dielectric. The source, drain and gate stack are configured to form the TFET. | 09-11-2014 |
20140252469 | FinFETs with Strained Well Regions - A device includes a substrate and insulation regions over a portion of the substrate. A first semiconductor region is between the insulation regions and having a first conduction band. A second semiconductor region is over and adjoining the first semiconductor region, wherein the second semiconductor region includes an upper portion higher than top surfaces of the insulation regions to form a semiconductor fin. The second semiconductor region also includes a wide portion and a narrow portion over the wide portion, wherein the narrow portion is narrower than the wide portion. The semiconductor fin has a tensile strain and has a second conduction band lower than the first conduction band. A third semiconductor region is over and adjoining a top surface and sidewalls of the semiconductor fin, wherein the third semiconductor region has a third conduction band higher than the second conduction band. | 09-11-2014 |
20140252496 | Gate Contact Structure for FinFET - An embodiment includes a substrate, wherein a portion of the substrate extends upwards forming a fin, a gate dielectric over a top surface and at least portions of sidewalls of the fin, a gate electrode over the gate dielectric, and a contact over and extending into the gate electrode, wherein the contact has a first width above the gate electrode and a second width within the gate electrode, the first width being smaller than the second width. | 09-11-2014 |
20140264289 | Structure and Method for Vertical Tunneling Field Effect Transistor with Leveled Source and Drain - The present disclosure provides one embodiment of a semiconductor structure. The semiconductor structure includes a semiconductor substrate having a first region and a second region; a first semiconductor mesa formed on the semiconductor substrate within the first region; a second semiconductor mesa formed on the semiconductor substrate within the second region; and a field effect transistor (FET) formed on the semiconductor substrate. The FET includes a first doped feature of a first conductivity type formed in a top portion of the first semiconductor mesa; a second doped feature of a second conductivity type formed in a bottom portion of the first semiconductor mesa, the second semiconductor mesa, and a portion of the semiconductor substrate between the first and second semiconductor mesas; a channel in a middle portion of the first semiconductor mesa and interposed between the source and drain; and a gate formed on sidewall of the first semiconductor mesa. | 09-18-2014 |
20140319462 | BUFFER LAYER OMEGA GATE - A device comprises insulation regions disposed in a substrate and a semiconductor fin extending above top surfaces of the insulation regions. The semiconductor fin comprises a first material. A semiconductor region comprising a second material extends from a first side of the semiconductor fin over a top of the fin to a second side of the fin. A strain buffer layer is disposed between, and contacts, the semiconductor fin and the semiconductor region. The strain buffer layer comprises an oxide, and a bottommost surface of the strain buffer layer is vertically spaced apart from the top surfaces of the insulation regions. | 10-30-2014 |
20140361336 | Fin Structure of Semiconductor Device - The disclosure relates to a fin structure of a semiconductor device. An exemplary fin structure for a semiconductor device comprises a lower portion protruding from a major surface of a substrate, wherein the lower portion comprises a first semiconductor material having a first lattice constant; an upper portion having an interface with the lower portion, wherein the upper portion comprises a second semiconductor material having a second lattice constant different from the first lattice constant; a first pair of notches lower than the interface and extending into opposite sides of the lower portion, wherein each first notch have a first width; and a second pair of notches extending into opposite sides of the interface, wherein each second notch have a second width greater than the first width. | 12-11-2014 |
20150035017 | Contact Structure of Semiconductor Device - The disclosure relates to a semiconductor device. An exemplary structure for a contact structure for a semiconductor device comprises a substrate comprising a major surface; a fin structure extending upward from the substrate major surface, wherein the fin structure comprises a first fin, a second fin, and a third fin between the first fin and second fin; a first germanide over the first fin, wherein a first bottom surface of the first germanide has a first acute angle to the major surface; a second germanide over the second fin on a side of the third fin opposite to first germanide substantially mirror-symmetrical to each other; and a third germanide over the third fin, wherein a third bottom surface of the third germanide has a third acute angle to the major surface less than the first acute angle. | 02-05-2015 |
20150054040 | FINFETS WITH STRAINED WELL REGIONS - A device includes a substrate, insulation regions extending into the substrate, a first semiconductor region between the insulation regions and having a first valence band, and a second semiconductor region over and adjoining the first semiconductor region. The second semiconductor region has a compressive strain and a second valence band higher than the first valence band. The second semiconductor region includes an upper portion higher than top surfaces of the insulation regions to form a semiconductor fin, and a lower portion lower than the top surfaces of the insulation regions. The upper portion and the lower portion are intrinsic. A semiconductor cap adjoins a top surface and sidewalls of the semiconductor fin. The semiconductor cap has a third valence band lower than the second valence band. | 02-26-2015 |
20150069474 | Isolation Structure of Fin Field Effect Transistor - The disclosure relates to a fin field effect transistor (FinFET). An exemplary FinFET comprises a substrate comprising a major surface; a fin structure protruding from the major surface comprising a lower portion comprising a first semiconductor material having a first lattice constant; an upper portion comprising the first semiconductor material, wherein a bottom portion of the upper portion comprises a dopant with a first peak concentration; a middle portion between the lower portion and upper portion, wherein the middle portion comprises a second semiconductor material having a second lattice constant different from the first lattice constant; and an isolation structure surrounding the fin structure, wherein a portion of the isolation structure adjacent to the bottom portion of the upper portion comprises the dopant with a second peak concentration equal to or greater than the first peak concentration. | 03-12-2015 |