公开(公告)号：US20140099769A1

公开(公告)日：2014-04-10

申请号：US13647986

申请日：2012-10-09

Applicant: STMICROELECTRONICS, INC. ,  INTERNATIONAL BUSINESS MACHINES CORP.

Inventor： Nicolas Loubet ,  Qing Liu ,  Shom Ponoth

IPC: H01L21/762

CPC classification number: H01L21/76283 ,  H01L21/31111 ,  H01L21/76232 ,  H01L21/84

Abstract: Isolation trenches are etched through an active silicon layer overlying a buried oxide on a substrate into the substrate, and through any pad dielectric(s) on the active silicon layer. Lateral epitaxial growth of the active silicon layer forms protrusions into the isolation trenches to a lateral distance of at least about 5 nanometers, and portions of the isolation trenches around the protrusions are filled with dielectric. Raised source/drain regions are formed on portions of the active silicon layer including a dielectric. As a result, misaligned contacts passing around edges of the raised source/drain regions remain spaced apart from sidewalls of the substrate in the isolation trenches.

Abstract translation: 通过将衬底上的掩埋氧化物覆盖在衬底中以及通过有源硅层上的任何焊盘电介质的有源硅层蚀刻隔离沟槽。 有源硅层的横向外延生长在隔离沟槽中形成至少约5纳米的横向距离的突起，并且围绕突起的部分隔离沟槽被电介质填充。 在包括电介质的有源硅层的部分上形成凸起的源极/漏极区。 结果，穿过凸起的源极/漏极区域的边缘的不对准触点保持与隔离沟槽中的衬底的侧壁间隔开。

公开(公告)号：US10431682B2

公开(公告)日：2019-10-01

申请号：US15693952

申请日：2017-09-01

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

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

IPC: H01L29/78 ,  H01L29/66 ,  H01L21/306 ,  H01L21/02 ,  H01L21/324 ,  H01L29/417

Abstract: A method of fabricating features of a vertical transistor include performing a first etch process to form a first portion of a fin in a substrate; depositing a spacer material on sidewalls of the first portion of the fin; performing a second etch process using the spacer material as a pattern to elongate the fin and form a second portion of the fin in the substrate, the second portion having a width that is greater than the first portion; oxidizing a region of the second portion of the fin beneath the spacer material to form an oxidized channel region; and removing the oxidized channel region to form a vacuum channel.

公开(公告)号：US20190259673A1

公开(公告)日：2019-08-22

申请号：US16399808

申请日：2019-04-30

Applicant: STMicroelectronics, Inc.

Inventor： Qing Liu ,  John H. Zhang

IPC: H01L21/84 ,  H01L29/66 ,  H01L29/161 ,  H01L29/423 ,  H01L29/06 ,  H01L29/10 ,  H01L21/266 ,  H01L27/12 ,  H01L27/02 ,  H01L21/308 ,  H01L21/265

Abstract: An analog integrated circuit is disclosed in which short channel transistors are stacked on top of long channel transistors, vertically separated by an insulating layer. With such a design, it is possible to produce a high density, high power, and high performance analog integrated circuit chip including both short and long channel devices that are spaced far enough apart from one another to avoid crosstalk. In one embodiment, the transistors are FinFETs and the long channel devices are multi-gate FinFETs. In one embodiment, single and dual damascene devices are combined in a multi-layer integrated circuit cell. The cell may contain various combinations and configurations of the short and long-channel devices. A high density cell can be made by simply shrinking the dimensions of the cells and replicating two or more cells in the same size footprint as the original cell.

公开(公告)号：US10355086B2

公开(公告)日：2019-07-16

申请号：US15181843

申请日：2016-06-14

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

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

IPC: H01L21/84 ,  H01L29/10 ,  H01L29/66 ,  H01L21/306 ,  H01L29/20 ,  H01L29/417 ,  H01L29/78

Abstract: A semiconductor device includes a fin patterned in a substrate; a gate disposed over and substantially perpendicular to the fin; a pair of epitaxial contacts including a III-V material over the fin and on opposing sides of the gate; and a channel region between the pair of epitaxial contacts under the gate comprising an undoped III-V material between doped III-V materials, the doped III-V materials including a dopant in an amount in a range from about 1e18 to about 1e20 atoms/cm3 and contacting the epitaxial contacts.

公开(公告)号：US20190206868A1

公开(公告)日：2019-07-04

申请号：US16294117

申请日：2019-03-06

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

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

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

CPC classification number: H01L27/0924 ,  H01L21/0338 ,  H01L21/3086 ,  H01L21/3088 ,  H01L21/823807 ,  H01L21/823821 ,  H01L21/845 ,  H01L27/0922 ,  H01L27/1211 ,  H01L29/0684 ,  H01L29/1054 ,  H01L29/16 ,  H01L29/165 ,  H01L29/7849

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：US10319647B2

公开(公告)日：2019-06-11

申请号：US15890001

申请日：2018-02-06

Applicant: STMicroelectronics, Inc.

Inventor： Qing Liu ,  John H. Zhang

IPC: H01L27/12 ,  H01L21/84 ,  H01L27/02 ,  H01L29/06 ,  H01L29/10 ,  H01L29/66 ,  H01L21/265 ,  H01L21/266 ,  H01L21/308 ,  H01L29/161 ,  H01L29/423

Abstract: An analog integrated circuit is disclosed in which short channel transistors are stacked on top of long channel transistors, vertically separated by an insulating layer. With such a design, it is possible to produce a high density, high power, and high performance analog integrated circuit chip including both short and long channel devices that are spaced far enough apart from one another to avoid crosstalk. In one embodiment, the transistors are FinFETs and the long channel devices are multi-gate FinFETs. In one embodiment, single and dual damascene devices are combined in a multi-layer integrated circuit cell. The cell may contain various combinations and configurations of the short and long-channel devices. A high density cell can be made by simply shrinking the dimensions of the cells and replicating two or more cells in the same size footprint as the original cell.

公开(公告)号：US10256351B2

公开(公告)日：2019-04-09

申请号：US15723149

申请日：2017-10-02

Applicant: STMICROELECTRONICS, INC.

Inventor： Qing Liu ,  John H. Zhang

IPC: H01L29/66 ,  H01L27/088 ,  H01L21/00 ,  H01L29/788 ,  H01L21/02

Abstract: A semi-floating gate transistor is implemented as a vertical FET built on a silicon substrate, wherein the source, drain, and channel are vertically aligned, on top of one another. Current flow between the source and the drain is influenced by a control gate and a semi-floating gate. Front side contacts can be made to each one of the source, drain, and control gate terminals of the vertical semi-floating gate transistor. The vertical semi-floating gate FET further includes a vertical tunneling FET and a vertical diode. Fabrication of the vertical semi-floating gate FET is compatible with conventional CMOS manufacturing processes, including a replacement metal gate process. Low-power operation allows the vertical semi-floating gate FET to provide a high current density compared with conventional planar devices.

公开(公告)号：US10204982B2

公开(公告)日：2019-02-12

申请号：US14048232

申请日：2013-10-08

Applicant: STMicroelectronics, Inc.

Inventor： Pierre Morin ,  Qing Liu ,  Nicolas Loubet

IPC: H01L29/06 ,  H01L21/84 ,  H01L27/12 ,  H01L29/78 ,  H01L21/8238

Abstract: A method for forming a semiconductor device includes forming a mask layer on a stressed semiconductor layer of a stressed, semiconductor-on-insulator wafer. An isolation trench bounding the stressed semiconductor layer is formed. The isolation trench extends through the mask layer and into the SOI wafer past an oxide layer thereof. A dielectric body is formed in the isolation trench. A relaxation reduction liner is formed on the dielectric body and on an adjacent sidewall of the stressed semiconductor layer. The mask layer on the stressed semiconductor layer is removed.

公开(公告)号：US10170475B2

公开(公告)日：2019-01-01

申请号：US15448626

申请日：2017-03-03

Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATION ,  STMICROELECTRONICS, INC.

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

IPC: H01L29/66 ,  H01L27/092 ,  H01L27/11 ,  H01L21/8238 ,  H01L21/84 ,  H01L29/786 ,  H01L21/02 ,  H01L21/265 ,  H01L21/3065 ,  H01L21/311 ,  H01L21/762 ,  H01L27/12 ,  H01L29/06 ,  H01L29/08 ,  H01L29/165 ,  H01L29/417

Abstract: An improved transistor with channel epitaxial silicon. In one aspect, a method of fabrication includes: forming a gate stack structure on an epitaxial silicon region disposed on a substrate, a width dimension of the epitaxial silicon region approximating a width dimension of the gate stack structure; and growing a raised epitaxial source and drain from the substrate, the raised epitaxial source and drain in contact with the epitaxial silicon region and the gate stack structure. For a SRAM device, further: removing an epitaxial layer in contact with the silicon substrate and the raised source and drain and to which the epitaxial silicon region is coupled leaving a space above the silicon substrate and under the raised epitaxial source and drain; and filling the space with an insulating layer and isolating the raised epitaxial source and drain and a channel of the transistor from the silicon substrate.

公开(公告)号：US10153371B2

公开(公告)日：2018-12-11

申请号：US14175215

申请日：2014-02-07

Applicant: STMICROELECTRONICS, INC. ,  GLOBALFOUNDRIES Inc.

Inventor： Xiuyu Cai ,  Qing Liu ,  Ruilong Xie

IPC: H01L29/78 ,  H01L29/66

Abstract: A method is for making a semiconductor device. The method may include forming fins above a substrate, each fin having an upper fin portion including a first semiconductor material and a lower fin portion including a dielectric material. The method may include forming recesses into sidewalls of each lower fin portion to expose a lower surface of a respective upper fin portion, and forming a second semiconductor layer surrounding the fins including the exposed lower surfaces of the upper fin portions. The second semiconductor layer may include a second semiconductor material to generate stress in the first semiconductor material.