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公开(公告)号:US20160035728A1
公开(公告)日:2016-02-04
申请号:US14882308
申请日:2015-10-13
Applicant: GLOBALFOUNDRIES Inc.
Inventor: Ajey Poovannummoottil Jacob , Steven John Bentley , Murat Kerem Akarvardar , Jody Alan Fronheiser , Kangguo Cheng , Bruce B. Doris , Ali Khakifirooz , Toshiharu Nagumo
IPC: H01L27/092 , H01L29/66 , H01L21/8238 , H01L29/78
CPC classification number: H01L27/0924 , H01L21/823821 , H01L21/845 , H01L27/1211 , H01L29/66439 , H01L29/66795 , H01L29/785 , H01L29/7851
Abstract: Embodiments herein provide device isolation in a complimentary metal-oxide fin field effect transistor. Specifically, a semiconductor device is formed with a retrograde doped layer over a substrate to minimize a source to drain punch-through leakage. A set of high mobility channel fins is formed over the retrograde doped layer, each of the set of high mobility channel fins comprising a high mobility channel material (e.g., silicon or silicon-germanium). The retrograde doped layer may be formed using an in situ doping process or a counter dopant retrograde implant. The device may further include a carbon liner positioned between the retrograde doped layer and the set of high mobility channel fins to prevent carrier spill-out to the high mobility channel fins.
Abstract translation: 本文的实施例提供了在互补金属氧化物鳍片场效应晶体管中的器件隔离。 具体地,半导体器件在衬底上形成有逆向掺杂层以最小化源极到漏极穿通泄漏。 一组高迁移率通道散热片形成在逆向掺杂层上,该组高迁移率通道散热片中的每一个包括高迁移率通道材料(例如硅或硅 - 锗)。 逆向掺杂层可以使用原位掺杂工艺或反掺杂剂逆向植入来形成。 该装置还可以包括位于逆向掺杂层和一组高迁移率通道翅片之间的碳衬垫,以防止载流子溢出到高迁移率通道翅片。
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公开(公告)号:US20140361377A1
公开(公告)日:2014-12-11
申请号:US13914808
申请日:2013-06-11
Applicant: GLOBALFOUNDRIES Inc. , Renesas Electronics Corporation , International Business Machines Corporation
Inventor: Ajey Poovannummoottil Jacob , Steven John Bentley , Murat Kerem Akarvardar , Jody Alan Fronheiser , Kangguo Cheng , Bruce B. Doris , Ali Khakifirooz , Toshiharu Nagumo
IPC: H01L27/092 , H01L29/66
CPC classification number: H01L27/0924 , H01L21/823821 , H01L21/845 , H01L27/1211 , H01L29/66439 , H01L29/66795 , H01L29/785 , H01L29/7851
Abstract: Embodiments herein provide device isolation in a complimentary metal-oxide fin field effect transistor. Specifically, a semiconductor device is formed with a retrograde doped layer over a substrate to minimize a source to drain punch-through leakage. A set of high mobility channel fins is formed over the retrograde doped layer, each of the set of high mobility channel fins comprising a high mobility channel material (e.g., silicon or silicon-germanium). The retrograde doped layer may be formed using an in situ doping process or a counter dopant retrograde implant. The device may further include a carbon liner positioned between the retrograde doped layer and the set of high mobility channel fins to prevent carrier spill-out to the high mobility channel fins.
Abstract translation: 本文的实施例提供了在互补金属氧化物鳍片场效应晶体管中的器件隔离。 具体地,半导体器件在衬底上形成有逆向掺杂层以最小化源极到漏极穿通泄漏。 一组高迁移率通道散热片形成在逆向掺杂层上,该组高迁移率通道散热片中的每一个包括高迁移率通道材料(例如硅或硅 - 锗)。 逆向掺杂层可以使用原位掺杂工艺或反掺杂剂逆向植入来形成。 该装置还可以包括位于逆向掺杂层和一组高迁移率通道翅片之间的碳衬垫,以防止载流子溢出到高迁移率通道翅片。
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公开(公告)号:US09190411B2
公开(公告)日:2015-11-17
申请号:US13914808
申请日:2013-06-11
Applicant: GLOBALFOUNDRIES Inc. , International Business Machines Corporation , Renesas Electronics Corporation
Inventor: Ajey Poovannummoottil Jacob , Steven John Bentley , Murat Kerem Akarvardar , Jody Alan Fronheiser , Kangguo Cheng , Bruce B. Doris , Ali Khakifirooz , Toshiharu Nagumo
IPC: H01L21/84 , H01L21/8238 , H01L27/092 , H01L27/12 , H01L29/66 , H01L29/78
CPC classification number: H01L27/0924 , H01L21/823821 , H01L21/845 , H01L27/1211 , H01L29/66439 , H01L29/66795 , H01L29/785 , H01L29/7851
Abstract: Embodiments herein provide device isolation in a complimentary metal-oxide fin field effect transistor. Specifically, a semiconductor device is formed with a retrograde doped layer over a substrate to minimize a source to drain punch-through leakage. A set of high mobility channel fins is formed over the retrograde doped layer, each of the set of high mobility channel fins comprising a high mobility channel material (e.g., silicon or silicon-germanium). The retrograde doped layer may be formed using an in situ doping process or a counter dopant retrograde implant. The device may further include a carbon liner positioned between the retrograde doped layer and the set of high mobility channel fins to prevent carrier spill-out to the high mobility channel fins.
Abstract translation: 本文的实施例提供了在互补金属氧化物鳍片场效应晶体管中的器件隔离。 具体地,半导体器件在衬底上形成有逆向掺杂层以最小化源极到漏极穿通泄漏。 一组高迁移率通道散热片形成在逆向掺杂层上,该组高迁移率通道散热片中的每一个包括高迁移率通道材料(例如硅或硅 - 锗)。 逆向掺杂层可以使用原位掺杂工艺或反掺杂剂逆向植入来形成。 该装置还可以包括位于逆向掺杂层和一组高迁移率通道翅片之间的碳衬垫,以防止载流子溢出到高迁移率通道翅片。
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