公开(公告)号：US08860123B1

公开(公告)日：2014-10-14

申请号：US13852720

申请日：2013-03-28

Applicant: STMicroelectronics, Inc. ,  International Business Machines Corporation

Inventor： Prasanna Khare ,  Stephane Allegret-Maret ,  Nicolas Loubet ,  Qing Liu ,  Hemanth Jagannathan ,  Lisa Edge ,  Kangguo Cheng ,  Bruce Doris

IPC: H01L29/792 ,  H01L21/8238 ,  H01L29/423 ,  H01L29/66

CPC classification number: H01L29/792 ,  H01L21/28273 ,  H01L27/11546 ,  H01L29/42324 ,  H01L29/66825 ,  H01L29/7881

Abstract: A memory device may include a semiconductor substrate, and a memory transistor in the semiconductor substrate. The memory transistor may include source and drain regions in the semiconductor substrate and a channel region therebetween, and a gate stack having a first dielectric layer over the channel region, a second dielectric layer over the first dielectric layer, a first diffusion barrier layer over the second dielectric layer, a first electrically conductive layer over the first diffusion barrier layer, a second diffusion barrier layer over the first electrically conductive layer, and a second electrically conductive layer over the second diffusion barrier layer. The first and second dielectric layers may include different dielectric materials, and the first diffusion barrier layer may be thinner than the second diffusion barrier layer.

Abstract translation: 存储器件可以包括半导体衬底和半导体衬底中的存储晶体管。 存储晶体管可以包括半导体衬底中的源极和漏极区域以及它们之间的沟道区域，以及栅极堆叠，其在沟道区域上具有第一介电层，在第一介电层上方具有第二介电层，第一扩散阻挡层 第一介电层，第一扩散阻挡层上的第一导电层，第一导电层上的第二扩散阻挡层，以及第二扩散阻挡层上的第二导电层。 第一和第二电介质层可以包括不同的电介质材料，并且第一扩散阻挡层可以比第二扩散阻挡层薄。

公开(公告)号：US20140170834A1

公开(公告)日：2014-06-19

申请号：US14104903

申请日：2013-12-12

Applicant: STMicroelectronics (Crolles 2) SAS ,  Commissariat à l'Énergie Atomique et aux Énergies Alternatives ,  STMicroelectronics, Inc. ,  STMicroelectronics S.A.

Inventor： Claire Fenouillet-Beranger ,  Stephane Denorme ,  Nicolas Loubet ,  Qing Liu ,  Emmanuel Richard ,  Pierre Perreau

IPC: H01L21/762

CPC classification number: H01L21/76283 ,  H01L21/84 ,  H01L27/1207

Abstract: A method for manufacturing a hybrid SOI/bulk substrate, including the steps of starting from an SOI wafer comprising a single-crystal semiconductor layer called SOI layer, on an insulating layer, on a single-crystal semiconductor substrate; depositing on the SOI layer at least one masking layer and forming openings crossing the masking layer, the SOI layer, and the insulating layer, to reach the substrate; growing by a repeated alternation of selective epitaxy and partial etching steps a semiconductor material; and etching insulating trenches surrounding said openings filled with semiconductor material, while encroaching inwards over the periphery of the openings.

Abstract translation: 一种制造混合SOI /体基板的方法，包括以下步骤：在绝缘层上在单晶半导体衬底上从包括称为SOI层的单晶半导体层的SOI晶片开始; 在SOI层上沉积至少一个掩模层，并形成与掩模层，SOI层和绝缘层交叉的开口，以到达衬底; 通过选择性外延和部分蚀刻步骤的重复交替生长半导体材料; 以及蚀刻围绕填充有半导体材料的所述开口的绝缘沟槽，同时在开口的周边向内侵入。

公开(公告)号：US11069682B2

公开(公告)日：2021-07-20

申请号：US16751036

申请日：2020-01-23

Applicant: STMICROELECTRONICS, INC.

Inventor： Qing Liu ,  Prasanna Khare ,  Nicolas Loubet

IPC: H01L27/088 ,  H01L21/84 ,  H01L29/66 ,  H01L29/78 ,  H01L29/08 ,  H01L21/265 ,  H01L29/417 ,  H01L21/8238 ,  H01L21/225 ,  H01L21/8234

Abstract: A multi-fin FINFET device may include a substrate and a plurality of semiconductor fins extending upwardly from the substrate and being spaced apart along the substrate. Each semiconductor fin may have opposing first and second ends and a medial portion therebetween, and outermost fins of the plurality of semiconductor fins may comprise an epitaxial growth barrier on outside surfaces thereof. The FINFET may further include at least one gate overlying the medial portions of the semiconductor fins, a plurality of raised epitaxial semiconductor source regions between the semiconductor fins adjacent the first ends thereof, and a plurality of raised epitaxial semiconductor drain regions between the semiconductor fins adjacent the second ends thereof.

公开(公告)号：US10700194B2

公开(公告)日：2020-06-30

申请号：US16026663

申请日：2018-07-03

Applicant: STMicroelectronics, Inc.

Inventor： Qing Liu ,  John H. Zhang

IPC: H01L29/78 ,  H01L29/66 ,  H01L29/165 ,  H01L29/267 ,  H01L29/739 ,  H01L27/092 ,  H01L29/16 ,  H01L21/8234 ,  H01L29/49 ,  H01L29/51 ,  H01L21/8238

Abstract: A tunneling transistor is implemented in silicon, using a FinFET device architecture. The tunneling FinFET has a non-planar, vertical, structure that extends out from the surface of a doped drain formed in a silicon substrate. The vertical structure includes a lightly doped fin defined by a subtractive etch process, and a heavily-doped source formed on top of the fin by epitaxial growth. The drain and channel have similar polarity, which is opposite that of the source. A gate abuts the channel region, capacitively controlling current flow through the channel from opposite sides. Source, drain, and gate terminals are all electrically accessible via front side contacts formed after completion of the device. Fabrication of the tunneling FinFET is compatible with conventional CMOS manufacturing processes, including replacement metal gate and self-aligned contact processes. Low-power operation allows the tunneling FinFET to provide a high current density compared with conventional planar devices.

公开(公告)号：US10593780B2

公开(公告)日：2020-03-17

申请号：US15222261

申请日：2016-07-28

Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATION ,  GLOBALFOUNDRIES INC. ,  STMicroelectronics, Inc.

Inventor： Xiuyu Cai ,  Chun-Chen Yeh ,  Qing Liu ,  Ruilong Xie

IPC: H01L21/768 ,  H01L29/78 ,  H01L29/66 ,  H01L29/417 ,  H01L29/06 ,  H01L29/08 ,  H01L29/161 ,  H01L29/165

Abstract: A semiconductor device that a fin structure, and a gate structure present on a channel region of the fin structure. A composite spacer is present on a sidewall of the gate structure including an upper portion having a first dielectric constant, a lower portion having a second dielectric constant that is less than the first dielectric constant, and an etch barrier layer between sidewalls of the first and second portion of the composite spacer and the gate structure. The etch barrier layer may include an alloy including at least one of silicon, boron and carbon.

公开(公告)号：US10276573B2

公开(公告)日：2019-04-30

申请号：US15168382

申请日：2016-05-31

Applicant: International Business Machines Corporation ,  GlobalFoundries, Inc. ,  STMicroelectronics, Inc.

Inventor： Xiuyu Cai ,  Qing Liu ,  Ruilong Xie ,  Chun-chen Yeh

IPC: H01L27/092 ,  H01L21/8238 ,  H01L29/16 ,  H01L29/06 ,  H01L21/308 ,  H01L21/033 ,  H01L29/78 ,  H01L29/165 ,  H01L21/84 ,  H01L27/12 ,  H01L29/10

Abstract: A semiconductor substrate includes a bulk substrate layer that extends along a first axis to define a width and a second axis perpendicular to the first axis to define a height. A plurality of hetero semiconductor fins includes an epitaxial material formed on a first region of the bulk substrate layer. A plurality of non-hetero semiconductor fins is formed on a second region of the bulk substrate layer different from the first region. The non-hetero semiconductor fins are integrally formed from the bulk substrate layer such that the material of the non-hetero semiconductor fins is different from the epitaxial material.

公开(公告)号：US20190081079A1

公开(公告)日：2019-03-14

申请号：US16180223

申请日：2018-11-05

Applicant: STMicroelectronics, Inc.

Inventor： Qing Liu ,  Pierre Morin

IPC: H01L27/12 ,  H01L27/092 ,  H01L29/66 ,  H01L21/02 ,  H01L21/324 ,  H01L21/3105 ,  H01L21/308 ,  H01L21/8238 ,  H01L29/78 ,  H01L21/84 ,  H01L29/06 ,  H01L29/10

Abstract: A tensile strained silicon layer is patterned to form a first group of fins in a first substrate area and a second group of fins in a second substrate area. The second group of fins is covered with a tensile strained material, and an anneal is performed to relax the tensile strained silicon semiconductor material in the second group of fins and produce relaxed silicon semiconductor fins in the second area. The first group of fins is covered with a mask, and silicon-germanium material is provided on the relaxed silicon semiconductor fins. Germanium from the silicon germanium material is then driven into the relaxed silicon semiconductor fins to produce compressive strained silicon-germanium semiconductor fins in the second substrate area (from which p-channel finFET devices are formed). The mask is removed to reveal tensile strained silicon semiconductor fins in the first substrate area (from which n-channel finFET devices are formed).

公开(公告)号：US10163684B2

公开(公告)日：2018-12-25

申请号：US15831761

申请日：2017-12-05

Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATION ,  STMICROELECTRONICS, INC.

Inventor： Bruce Doris ,  Hong He ,  Qing Liu

IPC: H01L21/762 ,  H01L29/78 ,  H01L29/06 ,  H01L29/08 ,  H01L29/165 ,  H01L21/02 ,  H01L21/225 ,  H01L27/12 ,  H01L29/66 ,  H01L29/10 ,  H01L27/088 ,  H01L21/8234

Abstract: A method of making a structurally stable SiGe-on-insulator FinFET employs a silicon nitride liner to prevent de-stabilizing oxidation at the base of a SiGe fin. The silicon nitride liner blocks access of oxygen to the lower corners of the fin to facilitate fabrication of a high-concentration SiGe fin. The silicon nitride liner is effective as an oxide barrier even if its thickness is less than about 5 nm. Use of the SiN liner provides structural stability for fins that have higher germanium content, in the range of 25-55% germanium concentration.

公开(公告)号：US10134895B2

公开(公告)日：2018-11-20

申请号：US13692632

申请日：2012-12-03

Applicant: STMicroelectronics, Inc.

Inventor： Nicolas Loubet ,  Prasanna Khare ,  Qing Liu

IPC: H01L29/78 ,  H01L29/06 ,  H01L29/66 ,  H01L29/165 ,  H01L21/762 ,  H01L21/8238 ,  H01L29/16 ,  H01L29/161

Abstract: The presence of a facet or a void in an epitaxially grown crystal indicates that crystal growth has been interrupted by defects or by certain material boundaries. Faceting can be suppressed during epitaxial growth of silicon compounds that form source and drain regions of strained silicon transistors. It has been observed that faceting can occur when epitaxial layers of certain silicon compounds are grown adjacent to an oxide boundary, but faceting does not occur when the epitaxial layer is grown adjacent to a silicon boundary or adjacent to a nitride boundary. Because epitaxial growth of silicon compounds is often necessary in the vicinity of isolation trenches that are filled with oxide, techniques for suppression of faceting in these areas are of particular interest. One such technique, presented herein, is to line the isolation trenches with SiN to provide a barrier between the oxide and the region in which epitaxial growth is intended.

公开(公告)号：US10103174B2

公开(公告)日：2018-10-16

申请号：US14964648

申请日：2015-12-10

Applicant: STMICROELECTRONICS, INC.

Inventor： Pierre Morin ,  Qing Liu ,  Nicolas Loubet

IPC: H01L27/092 ,  H01L27/12 ,  H01L21/84 ,  H01L29/06 ,  H01L29/16 ,  H01L29/161 ,  H01L21/8238

Abstract: A method for making a semiconductor device may include forming, on a first semiconductor layer of a semiconductor-on-insulator (SOI) wafer, a second semiconductor layer comprising a second semiconductor material different than a first semiconductor material of the first semiconductor layer. The method may further include performing a thermal treatment in a non-oxidizing atmosphere to diffuse the second semiconductor material into the first semiconductor layer, and removing the second semiconductor layer.