公开(公告)号：US20220109025A1

公开(公告)日：2022-04-07

申请号：US17552546

申请日：2021-12-16

Applicant: Intel Corporation

Inventor： Prashant MAJHI ,  Ravi PILLARISETTY ,  Elijah V. KARPOV ,  Brian S. DOYLE ,  Abhishek A. SHARMA

IPC: H01L27/24 ,  H01L27/22 ,  H01L45/00

Abstract: Embedded non-volatile memory structures having double selector elements are described. In an example, a memory device includes a word line. A double selector element is above the word line. The double selector element includes a first selector material layer, a second selector material layer different than the first selector material layer, and a conductive layer directly between the first selector material layer and the second selector material layer. A bipolar memory element is above the word line. A conductive electrode is between the double selector element and the bipolar memory element. A bit line is above the word line.

公开(公告)号：US20210057413A1

公开(公告)日：2021-02-25

申请号：US16954126

申请日：2018-03-28

Applicant: Gilbert DEWEY ,  Ravi PILLARISETTY ,  Jack T. KAVALIEROS ,  Aaron D. LILAK ,  Willy RACHMADY ,  Rishabh MEHANDRU ,  Kimin JUN ,  Anh PHAN ,  Hui Jae YOO ,  Patrick MORROW ,  Cheng-Ying HUANG ,  Matthew V. METZ ,  Intel Corporation

Inventor： Gilbert DEWEY ,  Ravi PILLARISETTY ,  Jack T. KAVALIEROS ,  Aaron D. LILAK ,  Willy RACHMADY ,  Rishabh MEHANDRU ,  Kimin JUN ,  Anh PHAN ,  Hui Jae YOO ,  Patrick MORROW ,  Cheng-Ying HUANG ,  Matthew V. METZ

IPC: H01L27/092 ,  H01L21/822 ,  H01L29/08 ,  H01L29/78 ,  H01L21/8238 ,  H01L27/06 ,  H01L29/66 ,  H01L29/06

Abstract: An integrated circuit structure comprises a lower device layer that includes a first structure comprising a plurality of PMOS transistors. An upper device layer is formed on the lower device layer, wherein the upper device layer includes a second structure comprising a plurality of NMOS transistors having a group III-V material source/drain region.

公开(公告)号：US20200287053A1

公开(公告)日：2020-09-10

申请号：US16648974

申请日：2017-12-29

Applicant: Intel Corporation

Inventor： Van H. LE ,  Ashish AGRAWAL ,  Seung Hoon SUNG ,  Abhishek A. SHARMA ,  Ravi PILLARISETTY

IPC: H01L29/786 ,  C30B29/08 ,  H01L27/088 ,  C30B29/40

Abstract: Described herein are apparatuses, systems, and methods associated with metal-assisted transistors. A single crystal semiconductor material may be seeded from a metal. The single crystal semiconductor material may form a channel region, a source, region, and/or a drain region of the transistor. The metal may form the source contact or drain contact, and the source region, channel region, and drain region may be stacked vertically on the source contact or drain contact. Alternatively, a metal-assisted semiconductor growth process may be used to form a single crystal semiconductor material on a dielectric material adjacent to the metal. The portion of the semiconductor material on the dielectric material may be used to form the transistor. Other embodiments may be described and claimed.

公开(公告)号：US20200212105A1

公开(公告)日：2020-07-02

申请号：US16634109

申请日：2017-09-27

Applicant: Intel Corporation

Inventor： Prashant MAJHI ,  Abhishek A. SHARMA ,  Elijah V. KARPOV ,  Ravi PILLARISETTY ,  Brian S. DOYLE

IPC: H01L27/24 ,  H01L27/22

Abstract: Embedded non-volatile memory structures having asymmetric selector elements are described. In an example, a memory device includes a word line. An asymmetric selector element is above the word line. The asymmetric selector element includes a first electrode material layer, a selector material layer on the first electrode material layer, and a second electrode material layer on the selector material layer, the second electrode material layer different in composition than the first electrode material layer. A bipolar memory element is above the word line, the bipolar memory element on the asymmetric selector element. A bit line is above the word line.

公开(公告)号：US20200168634A1

公开(公告)日：2020-05-28

申请号：US16630368

申请日：2017-09-29

Applicant: Intel Corporation

Inventor： Abhishek A. SHARMA ,  Van H. LE ,  Seung Hoon SUNG ,  Ravi PILLARISETTY ,  Marko RADOSAVLJEVIC

IPC: H01L27/12 ,  H01L29/24 ,  H01L29/423 ,  H01L29/49 ,  H01L29/786 ,  H01L21/02 ,  H01L21/383 ,  H01L29/66 ,  G05F1/56 ,  G06F1/26

Abstract: Described herein are apparatuses, systems, and methods associated with a voltage regulator circuit that includes one or more thin-film transistors (TFTs). The TFTs may be formed in the back-end of an integrated circuit. Additionally, the TFTs may include one or more unique features, such as a channel layer treated with a gas or plasma, and/or a gate oxide layer that is thicker than in prior TFTs. The one or more TFTs of the voltage regulator circuit may improve the operation of the voltage regulator circuit and free up front-end substrate area for other devices. Other embodiments may be described and claimed.

公开(公告)号：US20180350921A1

公开(公告)日：2018-12-06

申请号：US15771985

申请日：2015-12-24

Applicant: INTEL CORPORATION

Inventor： Sansaptak DASGUPTA ,  Han Wui THEN ,  Marko RADOSAVLJEVIC ,  Niloy MUKHERJEE ,  Ravi PILLARISETTY

IPC: H01L29/267 ,  H01L27/092 ,  H01L27/12 ,  H01L29/786 ,  H01L29/778 ,  H01L21/02

CPC classification number: H01L21/8258 ,  H01L21/02381 ,  H01L21/02433 ,  H01L21/02458 ,  H01L21/02494 ,  H01L21/02502 ,  H01L21/02516 ,  H01L21/02568 ,  H01L21/02609 ,  H01L27/0924 ,  H01L27/1207 ,  H01L27/1211 ,  H01L29/78681

Abstract: Described herein are methods and structures integrating one or more TMDC crystal heteroepitaxially grown on one or more group III-Nitride (III-N) crystal. The TMDC crystal may be grown on a III-N heteroepitaxial crystal that has been grown on crystalline silicon substrate. One or more of III-N devices and silicon devices employing separated regions of the heteroepitaxial substrate may be integrated with a TMDC device fabricated on with the TMDC crystal. In some embodiments, impurity-doped III-N source/drain regions provide a low resistance coupling between metallization and a TMDC-channeled transistor.

公开(公告)号：US20170236936A1

公开(公告)日：2017-08-17

申请号：US15499794

申请日：2017-04-27

Applicant: Intel Corporation

Inventor： Han Wui Then ,  Robert S. CHAU ,  Sansaptak DASGUPTA ,  Marko RADOSAVLJEVIC ,  Benjamin CHU-KUNG ,  Seung Hoon SUNG ,  Sanaz GARDNER ,  Ravi PILLARISETTY

IPC: H01L29/78 ,  H01L29/20 ,  H01L29/10 ,  H01L29/205 ,  H01L21/762 ,  H01L29/34 ,  H01L21/02 ,  H01L29/66 ,  H01L29/08 ,  H01L21/84 ,  H01L27/06 ,  H01L27/12 ,  H01L29/06 ,  H01L21/306

CPC classification number: H01L29/7848 ,  H01L21/02381 ,  H01L21/0254 ,  H01L21/30604 ,  H01L21/30612 ,  H01L21/7624 ,  H01L21/845 ,  H01L27/0605 ,  H01L27/1211 ,  H01L29/0649 ,  H01L29/0847 ,  H01L29/1033 ,  H01L29/2003 ,  H01L29/205 ,  H01L29/34 ,  H01L29/66462 ,  H01L29/66522

Abstract: Techniques are disclosed for forming a GaN transistor on a semiconductor substrate. An insulating layer forms on top of a semiconductor substrate. A trench, filled with a trench material comprising a III-V semiconductor material, forms through the insulating layer and extends into the semiconductor substrate. A channel structure, containing III-V material having a defect density lower than the trench material, forms directly on top of the insulating layer and adjacent to the trench. A source and drain form on opposite sides of the channel structure, and a gate forms on the channel structure. The semiconductor substrate forms a plane upon which both GaN transistors and other transistors can form.

公开(公告)号：US20170154960A1

公开(公告)日：2017-06-01

申请号：US15429126

申请日：2017-02-09

Applicant: Intel Corporation

Inventor： Willy RACHMADY ,  Van H. LE ,  Ravi PILLARISETTY ,  Jack T. KAVALIEROS ,  Robert S. CHAU ,  Seung Hoon SUNG

IPC: H01L29/06 ,  H01L21/306 ,  H01L21/02 ,  H01L29/417 ,  H01L29/78 ,  H01L29/66

CPC classification number: H01L29/0676 ,  B82Y10/00 ,  B82Y40/00 ,  H01L21/02603 ,  H01L21/30604 ,  H01L29/0673 ,  H01L29/1033 ,  H01L29/41791 ,  H01L29/4232 ,  H01L29/42392 ,  H01L29/66439 ,  H01L29/66545 ,  H01L29/66613 ,  H01L29/66795 ,  H01L29/775 ,  H01L29/78 ,  H01L29/785 ,  H01L29/78696 ,  H01L2029/7858 ,  Y10S977/762 ,  Y10S977/89 ,  Y10S977/938

Abstract: Nanowire-based gate all-around transistor devices having one or more active nanowires and one or more inactive nanowires are described herein. Methods to fabricate such devices are also described. One or more embodiments of the present invention are directed at approaches for varying the gate width of a transistor structure comprising a nanowire stack having a distinct number of nanowires. The approaches include rendering a certain number of nanowires inactive (i.e. so that current does not flow through the nanowire), by severing the channel region, burying the source and drain regions, or both. Overall, the gate width of nanowire-based structures having a plurality of nanowires may be varied by rendering a certain number of nanowires inactive, while maintaining other nanowires as active.

公开(公告)号：US20170012117A1

公开(公告)日：2017-01-12

申请号：US15120496

申请日：2014-03-21

Applicant: INTEL CORPORATION

Inventor： Marko RADOSAVLJEVIC ,  Brian S. DOYLE ,  Ravi PILLARISETTY ,  Niloy MUKHERJEE ,  Sansaptak DASGUPTA ,  Han Wui THEN ,  Robert S. CHAU

IPC: H01L29/778 ,  H01L21/8256 ,  H01L29/66 ,  H01L27/12 ,  H01L29/24 ,  H01L21/02

CPC classification number: H01L29/7782 ,  H01L21/02422 ,  H01L21/02568 ,  H01L21/8256 ,  H01L27/1225 ,  H01L27/124 ,  H01L29/0843 ,  H01L29/24 ,  H01L29/66969 ,  H01L29/786 ,  H01L29/78603 ,  H01L29/78681

Abstract: Embodiments of semiconductor assemblies, and related integrated circuit devices and techniques, are disclosed herein. In some embodiments, a semiconductor assembly may include a flexible substrate, a first barrier formed of a first transition metal dichalcogenide (TMD) material, a transistor channel formed of a second TMD material, and a second barrier formed of a third TMD material. The first barrier may be disposed between the transistor channel and the flexible substrate, the transistor channel may be disposed between the second barrier and the first barrier, and a bandgap of the transistor channel may be less than a bandgap of the first barrier and less than a bandgap of the second barrier. Other embodiments may be disclosed and/or claimed.

Abstract translation: 本文公开了半导体组件的实施例以及相关的集成电路器件和技术。 在一些实施例中，半导体组件可以包括柔性衬底，由第一过渡金属二硫属元素（TMD）材料形成的第一阻挡层，由第二TMD材料形成的晶体管沟道和由第三TMD材料形成的第二阻挡层。 第一势垒可以设置在晶体管沟道和柔性衬底之间，晶体管沟道可以设置在第二栅极和第一势垒之间，晶体管沟道的带隙可能小于第一势垒的带隙，而小于 第二个屏障的带隙。 可以公开和/或要求保护其他实施例。

公开(公告)号：US20150325481A1

公开(公告)日：2015-11-12

申请号：US14798380

申请日：2015-07-13

Applicant: Intel Corporation

Inventor： Marko RADOSAVLJEVIC ,  Ravi PILLARISETTY ,  Gilbert DEWEY ,  Niloy MUKHERJEE ,  Jack KAVALIEROS ,  Willy RACHMADY ,  Van LE ,  Benjamin CHU-KUNG ,  Matthew METZ ,  Robert CHAU

IPC: H01L21/8258 ,  H01L21/8238 ,  H01L29/423 ,  H01L21/02 ,  H01L29/16 ,  H01L29/20 ,  H01L21/306 ,  H01L27/092 ,  H01L29/06

CPC classification number: H01L21/845 ,  B82Y10/00 ,  H01L21/0228 ,  H01L21/02532 ,  H01L21/02546 ,  H01L21/30604 ,  H01L21/823807 ,  H01L21/823821 ,  H01L21/8258 ,  H01L27/092 ,  H01L27/0922 ,  H01L27/0924 ,  H01L27/1211 ,  H01L29/0673 ,  H01L29/16 ,  H01L29/20 ,  H01L29/205 ,  H01L29/42392 ,  H01L29/66439 ,  H01L29/66469 ,  H01L29/775 ,  H01L29/785 ,  H01L29/7853 ,  H01L29/78696

Abstract: Architectures and techniques for co-integration of heterogeneous materials, such as group III-V semiconductor materials and group IV semiconductors (e.g., Ge) on a same substrate (e.g. silicon). In embodiments, multi-layer heterogeneous semiconductor material stacks having alternating nanowire and sacrificial layers are employed to release nanowires and permit formation of a coaxial gate structure that completely surrounds a channel region of the nanowire transistor. In embodiments, individual PMOS and NMOS channel semiconductor materials are co-integrated with a starting substrate having a blanket layers of alternating Ge/III-V layers. In embodiments, vertical integration of a plurality of stacked nanowires within an individual PMOS and individual NMOS device enable significant drive current for a given layout area.

Abstract translation: 在同一衬底（例如硅）上的非均质材料如III-V族半导体材料和IV族半导体（例如Ge）共同整合的体系结构和技术。 在实施例中，采用具有交替的纳米线和牺牲层的多层非均相半导体材料堆叠以释放纳米线并允许形成完全包围纳米线晶体管的沟道区域的同轴栅极结构。 在实施例中，各个PMOS和NMOS沟道半导体材料与具有交替的Ge / III-V层的覆盖层的起始衬底共同整合。 在实施例中，单个PMOS和单独NMOS器件内的多个堆叠的纳米线的垂直积分能够给出给定布局区域的显着的驱动电流。