Aggressively scaled ultrathin undoped HfO2 gate dielectric (EOT<0.7 nm) with TaN gate electrode using engineered interface layer

被引：27

作者：

Choi, C ^{[1
]}

Kang, CY ^{[1
]}

Rhee, SJ ^{[1
]}

Akbar, MS ^{[1
]}

Krishnan, SA ^{[1
]}

Zhang, MH ^{[1
]}

Kim, HS ^{[1
]}

Lee, T ^{[1
]}

Ok, I ^{[1
]}

Zhu, F ^{[1
]}

Lee, JC ^{[1
]}

机构：

[1] Univ Texas, Dept Elect & Comp Engn, Microelect Res Ctr, Austin, TX 78758 USA

来源：

IEEE ELECTRON DEVICE LETTERS | 2005年 / 26卷 / 07期

关键词：

HfO2; low-k interface layer; oxygen-scavenging; scalability;

D O I：

10.1109/LED.2005.851240

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

The ultrathin HfO2 gate dielectric (EOT < 0.7 nm) has been achieved by using a novel "oxygen-scavenging effect" technique without incorporation of nitrogen or other "dopants" such as Al, Ti, or La. Interfacial oxidation growth was suppressed by Hf scavenging layer on HfO2 gate dielectric with appropriate annealing, leading to thinner EOT. As the scavenging layer thickness increases, EOT becomes thinner. This scavenging technique produced a EOT of 7.1 angstrom, the thinnest EOT value reported to date for "undoped" HfO2 with acceptable leakage current, while EOT of 12.5 angstrom was obtained for the control HfO2 film with the same physical thickness after 450 1 C anneal for 30 min at forming gas ambient. This reduced EOT is attributed to "scavenging effect" that Hf metal layer consumes oxygen during anneal and suppresses interfacial reaction effectively, making thinner interface layer. Using this fabrication approach, EOT of similar to 0.9 nm after conventional self-aligned MOSFETs process was successfully obtained.

引用

页码：454 / 457

页数：4

共 17 条

[1] Byoung Hun Lee, 1999, International Electron Devices Meeting 1999. Technical Digest (Cat. No.99CH36318), P133, DOI 10.1109/IEDM.1999.823863
[2] Structural and electrical properties of HfO2 with top nitrogen incorporated layer
Cho, HJ
Kang, CS
Onishi, K
Gopalan, S
Nieh, R
Choi, R
Krishnan, S
Lee, JC
[J]. IEEE ELECTRON DEVICE LETTERS, 2002, 23 (05) : 249 - 251
[3] CHOI C, 2005, IN PRESS VLSI S
[4] Choi CH, 2002, INTERNATIONAL ELECTRON DEVICES 2002 MEETING, TECHNICAL DIGEST, P857, DOI 10.1109/IEDM.2002.1175972
[5] Choi CW, 2004, 2004 SYMPOSIUM ON VLSI TECHNOLOGY, DIGEST OF TECHNICAL PAPERS, P214
[6] High-quality ultra-thin HfO2 gate dielectric MOSFETs with TaN electrode and nitridation surface preparation
Choi, R
Kang, CS
Lee, BH
Onishi, K
Nieh, R
Gopalan, S
Dharmarajan, E
Lee, JC
[J]. 2001 SYMPOSIUM ON VLSI TECHNOLOGY, DIGEST OF TECHNICAL PAPERS, 2001, : 15 - 16
[7] Oxygen diffusion in atomic layer deposited ZrO2 and HfO2 thin films on Si(100)
Ferrari, S
Scarel, G
[J]. JOURNAL OF APPLIED PHYSICS, 2004, 96 (01) : 144 - 149
[8] Kang CS, 2002, 2002 SYMPOSIUM ON VLSI TECHNOLOGY, DIGEST OF TECHNICAL PAPERS, P146
[9] Engineering chemically abrupt high-k metal oxide/silicon interfaces using an oxygen-gettering metal overlayer
Kim, H
McIntyre, PC
Chui, CO
Saraswat, KC
Stemmer, S
[J]. JOURNAL OF APPLIED PHYSICS, 2004, 96 (06) : 3467 - 3472
[10] Koyama M, 2002, INTERNATIONAL ELECTRON DEVICES 2002 MEETING, TECHNICAL DIGEST, P849, DOI 10.1109/IEDM.2002.1175970

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Aggressively scaled ultrathin undoped HfO2 gate dielectric (EOT&lt;0.7 nm) with TaN gate electrode using engineered interface layer

Aggressively scaled ultrathin undoped HfO2 gate dielectric (EOT<0.7 nm) with TaN gate electrode using engineered interface layer