公开(公告)号：US20130049172A1

公开(公告)日：2013-02-28

申请号：US13661722

申请日：2012-10-26

Applicant: STMicroelectronics, Inc. ,  International Business Machines Corporation

Inventor： Nicolas Loubet ,  Qing Liu ,  Sanjay C. Mehta ,  Spyridon Skordas

IPC: H01L23/58 ,  H01L21/20

CPC classification number: H01L29/78603 ,  H01L21/02112 ,  H01L21/02274 ,  H01L21/0228 ,  H01L21/76224 ,  H01L21/7624 ,  H01L29/66772

Abstract: An insulating region for a semiconductor wafer and a method of forming same. The insulating region can include a tri-layer structure of silicon oxide, boron nitride and silicon oxide. The insulating region may be used to insulate a semiconductor device layer from an underlying bulk semiconductor substrate. The insulating region can be formed by coating the sides of a very thin cavity with silicon oxide, and filling the remainder of the cavity between the silicon oxide regions with boron nitride.

Abstract translation: 半导体晶片的绝缘区域及其形成方法。 绝缘区域可以包括氧化硅，氮化硼和氧化硅的三层结构。 绝缘区域可以用于使半导体器件层与下面的体半导体衬底绝缘。 绝缘区域可以通过用氧化硅涂覆非常薄的腔体的侧面并且用氮化硼填充氧化硅区域之间的空腔的其余部分来形成。

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：US10354927B2

公开(公告)日：2019-07-16

申请号：US16027707

申请日：2018-07-05

Applicant: STMicroelectronics, Inc.

Inventor： Nicolas Loubet ,  Pierre Morin ,  Yann Mignot

IPC: H01L27/092 ,  H01L21/8238 ,  H01L29/165 ,  H01L21/02 ,  H01L21/762 ,  H01L29/49 ,  H01L29/78 ,  H01L29/06 ,  H01L29/417

Abstract: Integrated circuits are disclosed in which the strain properties of adjacent pFETs and nFETs are independently adjustable. The pFETs include compressive-strained SiGe on a silicon substrate, while the nFETs include tensile-strained silicon on a strain-relaxed SiGe substrate. Adjacent n-type and p-type FinFETs are separated by electrically insulating regions formed by a damascene process. During formation of the insulating regions, the SiGe substrate supporting the n-type devices is permitted to relax elastically, thereby limiting defect formation in the crystal lattice of the SiGe substrate.

公开(公告)号：US10319816B2

公开(公告)日：2019-06-11

申请号：US16016021

申请日：2018-06-22

Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATION ,  STMicroelectronics, Inc.

Inventor： Hong He ,  Nicolas Loubet ,  Junli Wang

IPC: H01L21/02 ,  H01L29/10 ,  H01L29/49 ,  H01L29/66 ,  H01L29/78 ,  H01L21/225 ,  H01L21/311 ,  H01L29/161 ,  H01L29/167

Abstract: A fin field effect transistor includes a Si fin including a central portion between end portions of the fin, and a SiGe channel region disposed on the central portion of the fin. The SiGe channel region includes a facet free SiGe region having Ge atoms diffused into the Si fin and includes a same shape as the Si fin outside the central portion.

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.

公开(公告)号：US20180144991A1

公开(公告)日：2018-05-24

申请号：US15874813

申请日：2018-01-18

Applicant: STMICROELECTRONICS, INC.

Inventor： Nicolas Loubet ,  Pierre Morin ,  Yann Mignot

IPC: H01L21/8238 ,  H01L29/417 ,  H01L29/78

CPC classification number: H01L21/823821 ,  H01L21/02381 ,  H01L21/02532 ,  H01L21/76224 ,  H01L21/823807 ,  H01L21/823878 ,  H01L27/0922 ,  H01L27/0924 ,  H01L29/0649 ,  H01L29/165 ,  H01L29/41791 ,  H01L29/4916 ,  H01L29/7842 ,  H01L29/785

Abstract: Integrated circuits are disclosed in which the strain properties of adjacent pFETs and nFETs are independently adjustable. The pFETs include compressive-strained SiGe on a silicon substrate, while the nFETs include tensile-strained silicon on a strain-relaxed SiGe substrate. Adjacent n-type and p-type FinFETs are separated by electrically insulating regions formed by a damascene process. During formation of the insulating regions, the SiGe substrate supporting the n-type devices is permitted to relax elastically, thereby limiting defect formation in the crystal lattice of the SiGe substrate.

公开(公告)号：US09917194B2

公开(公告)日：2018-03-13

申请号：US15365640

申请日：2016-11-30

Applicant: STMicroelectronics, Inc.

Inventor： Nicolas Loubet ,  Pierre Morin

IPC: H01L29/78 ,  H01L27/088 ,  H01L29/49 ,  H01L29/06 ,  H01L29/417 ,  H01L29/10 ,  H01L29/66 ,  H01L29/161

CPC classification number: H01L29/785 ,  H01L27/0886 ,  H01L29/0623 ,  H01L29/0649 ,  H01L29/1054 ,  H01L29/161 ,  H01L29/41791 ,  H01L29/495 ,  H01L29/66545 ,  H01L29/6656 ,  H01L29/66795 ,  H01L29/7849 ,  H01L2029/7858

Abstract: A self-aligned SiGe FinFET device features a relaxed channel region having a high germanium concentration. Instead of first introducing germanium into the channel and then attempting to relax the resulting strained film, a relaxed channel is formed initially to accept the germanium. In this way, a presence of germanium can be established without straining or damaging the lattice. Gate structures are patterned relative to intrinsic silicon fins, to ensure that the gates are properly aligned, prior to introducing germanium into the fin lattice structure. After aligning the gate structures, the silicon fins are segmented to elastically relax the silicon lattice. Then, germanium is introduced into the relaxed silicon lattice, to produce a SiGe channel that is substantially stress-free and also defect-free. Using the method described, concentration of germanium achieved in a structurally stable film can be increased to a level greater than 85%.

公开(公告)号：US20180068902A1

公开(公告)日：2018-03-08

申请号：US15813071

申请日：2017-11-14

Applicant: STMICROELECTRONICS, INC.

Inventor： Nicolas Loubet ,  Prasanna Khare ,  Qing Liu

IPC: H01L21/8238 ,  H01L27/092 ,  H01L21/3065 ,  H01L21/308

CPC classification number: H01L21/823807 ,  H01L21/3065 ,  H01L21/308 ,  H01L21/823821 ,  H01L21/823878 ,  H01L27/0922

Abstract: A method for co-integrating finFETs of two semiconductor material types, e.g., Si and SiGe, on a bulk substrate is described. Fins for finFETs may be formed in an epitaxial layer of a first semiconductor type, and covered with an insulator. A portion of the fins may be removed to form voids in the insulator, and the voids may be filled by epitaxially growing a semiconductor material of a second type in the voids. The co-integrated finFETs may be formed at a same device level.

公开(公告)号：US09685555B2

公开(公告)日：2017-06-20

申请号：US14584161

申请日：2014-12-29

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

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

IPC: H01L29/49 ,  H01L29/78 ,  H01L29/66 ,  H01L29/06 ,  H01L21/768

CPC classification number: H01L29/7856 ,  H01L21/76816 ,  H01L21/76897 ,  H01L29/0657 ,  H01L29/4975 ,  H01L29/6681 ,  H01L2029/7858

Abstract: Tapered source and drain contacts for use in an epitaxial FinFET prevent short circuits and damage to parts of the FinFET during contact processing, thus improving device reliability. The inventive contacts feature tapered sidewalls and a pedestal where electrical contact is made to fins in the source and drain regions. The pedestal also provides greater contact area to the fins, which are augmented by extensions. Raised isolation regions define a valley around the fins. During source/drain contact formation, the valley is lined with a conformal barrier that also covers the fins themselves. The barrier protects underlying local oxide and adjacent isolation regions against gouging while forming the contact. The valley is filled with an amorphous silicon layer that protects the epitaxial fin material from damage during contact formation. A simple tapered structure is used for the gate contact.