Doping considerations for FinFET, gate-all-around, and nanosheet based devices

Ray Duffy; Fintan Meaney; Emmanuele Galluccio

doi:10.1149/09703.0063ecst

Doping considerations for FinFET, gate-all-around, and nanosheet based devices

Ray Duffy
, Fintan Meaney
, Emmanuele Galluccio

University College Cork

Research output: Chapter in Book/Report/Conference proceedings › Conference proceeding › peer-review

Abstract

The IEEE International Roadmap for Devices and Systems (IRDS) for More Moore devices summarises the Logic Device state of play very effectively; the FinFET is the key device architecture that could enable logic device scaling until 2025. Increasing fin height while reducing number of fins at unit footprint area is an effective solution to improve performance. It is forecasted that the parasitics will remain as a dominant term in the performance of critical paths. For reduced supply voltage, a transition to gate-all-around (GAA) structures such as lateral nanowires or nanosheets will be necessary to improve electrostatics. Lateral GAA structure would eventually evolve in to the vertical GAA structure to gain back the performance loss due to increasing parasitics at tighter pitches. In this paper we will consider doping techniques based on ion implant, solid-source in-diffusion, liquid-source in-diffusion, and gas-source in-diffusion for these device technologies.

Original language	English
Title of host publication	237th ECS Meeting
Subtitle of host publication	Silicon Compatible Emerging Materials, Processes, and Technologies for Advanced CMOS and Post-CMOS Applications 10
Editors	H. Jagannathan, K. Kakushima, P. J. Timans, E. Gusev, Z. Karim, S. De Gendt, D. Misra, Y. S. Obeng, F. Roo
Publisher	IOP Publishing Ltd.
Pages	63-74
Number of pages	12
Edition	3
ISBN (Electronic)	9781607688914
DOIs	https://doi.org/10.1149/09703.0063ecst
Publication status	Published - 1 Apr 2020
Event	237th ECS Meeting with the 18th International Meeting on Chemical Sensors, IMCS 2020 - Montreal, Canada Duration: 10 May 2020 → 14 May 2020

Publication series

Name	ECS Transactions
Number	3
Volume	97
ISSN (Print)	1938-6737
ISSN (Electronic)	1938-5862

Conference

Conference	237th ECS Meeting with the 18th International Meeting on Chemical Sensors, IMCS 2020
Country/Territory	Canada
City	Montreal
Period	10/05/20 → 14/05/20

Access to Document

10.1149/09703.0063ecst

Cite this

Duffy, R., Meaney, F., & Galluccio, E. (2020). Doping considerations for FinFET, gate-all-around, and nanosheet based devices. In H. Jagannathan, K. Kakushima, P. J. Timans, E. Gusev, Z. Karim, S. De Gendt, D. Misra, Y. S. Obeng, & F. Roo (Eds.), 237th ECS Meeting: Silicon Compatible Emerging Materials, Processes, and Technologies for Advanced CMOS and Post-CMOS Applications 10 (3 ed., pp. 63-74). (ECS Transactions; Vol. 97, No. 3). IOP Publishing Ltd.. https://doi.org/10.1149/09703.0063ecst

Duffy, Ray ; Meaney, Fintan ; Galluccio, Emmanuele. / Doping considerations for FinFET, gate-all-around, and nanosheet based devices. 237th ECS Meeting: Silicon Compatible Emerging Materials, Processes, and Technologies for Advanced CMOS and Post-CMOS Applications 10. editor / H. Jagannathan ; K. Kakushima ; P. J. Timans ; E. Gusev ; Z. Karim ; S. De Gendt ; D. Misra ; Y. S. Obeng ; F. Roo. 3. ed. IOP Publishing Ltd., 2020. pp. 63-74 (ECS Transactions; 3).

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title = "Doping considerations for FinFET, gate-all-around, and nanosheet based devices",

abstract = "The IEEE International Roadmap for Devices and Systems (IRDS) for More Moore devices summarises the Logic Device state of play very effectively; the FinFET is the key device architecture that could enable logic device scaling until 2025. Increasing fin height while reducing number of fins at unit footprint area is an effective solution to improve performance. It is forecasted that the parasitics will remain as a dominant term in the performance of critical paths. For reduced supply voltage, a transition to gate-all-around (GAA) structures such as lateral nanowires or nanosheets will be necessary to improve electrostatics. Lateral GAA structure would eventually evolve in to the vertical GAA structure to gain back the performance loss due to increasing parasitics at tighter pitches. In this paper we will consider doping techniques based on ion implant, solid-source in-diffusion, liquid-source in-diffusion, and gas-source in-diffusion for these device technologies.",

author = "Ray Duffy and Fintan Meaney and Emmanuele Galluccio",

note = "Publisher Copyright: {\textcopyright} 2020 ECS - The Electrochemical Society.; 237th ECS Meeting with the 18th International Meeting on Chemical Sensors, IMCS 2020 ; Conference date: 10-05-2020 Through 14-05-2020",

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Duffy, R, Meaney, F & Galluccio, E 2020, Doping considerations for FinFET, gate-all-around, and nanosheet based devices. in H Jagannathan, K Kakushima, PJ Timans, E Gusev, Z Karim, S De Gendt, D Misra, YS Obeng & F Roo (eds), 237th ECS Meeting: Silicon Compatible Emerging Materials, Processes, and Technologies for Advanced CMOS and Post-CMOS Applications 10. 3 edn, ECS Transactions, no. 3, vol. 97, IOP Publishing Ltd., pp. 63-74, 237th ECS Meeting with the 18th International Meeting on Chemical Sensors, IMCS 2020, Montreal, Canada, 10/05/20. https://doi.org/10.1149/09703.0063ecst

Doping considerations for FinFET, gate-all-around, and nanosheet based devices. / Duffy, Ray; Meaney, Fintan; Galluccio, Emmanuele.
237th ECS Meeting: Silicon Compatible Emerging Materials, Processes, and Technologies for Advanced CMOS and Post-CMOS Applications 10. ed. / H. Jagannathan; K. Kakushima; P. J. Timans; E. Gusev; Z. Karim; S. De Gendt; D. Misra; Y. S. Obeng; F. Roo. 3. ed. IOP Publishing Ltd., 2020. p. 63-74 (ECS Transactions; Vol. 97, No. 3).

Research output: Chapter in Book/Report/Conference proceedings › Conference proceeding › peer-review

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N2 - The IEEE International Roadmap for Devices and Systems (IRDS) for More Moore devices summarises the Logic Device state of play very effectively; the FinFET is the key device architecture that could enable logic device scaling until 2025. Increasing fin height while reducing number of fins at unit footprint area is an effective solution to improve performance. It is forecasted that the parasitics will remain as a dominant term in the performance of critical paths. For reduced supply voltage, a transition to gate-all-around (GAA) structures such as lateral nanowires or nanosheets will be necessary to improve electrostatics. Lateral GAA structure would eventually evolve in to the vertical GAA structure to gain back the performance loss due to increasing parasitics at tighter pitches. In this paper we will consider doping techniques based on ion implant, solid-source in-diffusion, liquid-source in-diffusion, and gas-source in-diffusion for these device technologies.

AB - The IEEE International Roadmap for Devices and Systems (IRDS) for More Moore devices summarises the Logic Device state of play very effectively; the FinFET is the key device architecture that could enable logic device scaling until 2025. Increasing fin height while reducing number of fins at unit footprint area is an effective solution to improve performance. It is forecasted that the parasitics will remain as a dominant term in the performance of critical paths. For reduced supply voltage, a transition to gate-all-around (GAA) structures such as lateral nanowires or nanosheets will be necessary to improve electrostatics. Lateral GAA structure would eventually evolve in to the vertical GAA structure to gain back the performance loss due to increasing parasitics at tighter pitches. In this paper we will consider doping techniques based on ion implant, solid-source in-diffusion, liquid-source in-diffusion, and gas-source in-diffusion for these device technologies.

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A2 - Misra, D.

A2 - Obeng, Y. S.

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PB - IOP Publishing Ltd.

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Y2 - 10 May 2020 through 14 May 2020

ER -

Duffy R, Meaney F, Galluccio E. Doping considerations for FinFET, gate-all-around, and nanosheet based devices. In Jagannathan H, Kakushima K, Timans PJ, Gusev E, Karim Z, De Gendt S, Misra D, Obeng YS, Roo F, editors, 237th ECS Meeting: Silicon Compatible Emerging Materials, Processes, and Technologies for Advanced CMOS and Post-CMOS Applications 10. 3 ed. IOP Publishing Ltd. 2020. p. 63-74. (ECS Transactions; 3). doi: 10.1149/09703.0063ecst

Doping considerations for FinFET, gate-all-around, and nanosheet based devices

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