Comparison of equivalent oxide thickness and electrical properties of atomic layer deposited hafnium zirconate dielectrics with thermal or decoupled plasma nitridation process

被引:0
|
作者
Chen-Kuo Chiang
Chien-Hung Wu
Chin-Chien Liu
Jin-Fu Lin
Chien-Lun Yang
Jiun-Yuan Wu
Shui-Jinn Wang
机构
[1] National Cheng Kung University,Institute of Microelectronics, Department of Electrical Engineering
[2] Chung Hua University,Department of Electronics Engineering
[3] Science-Based Industrial Park,United Microelectronics Corporation
来源
Electronic Materials Letters | 2012年 / 8卷
关键词
ALD; HfZrO; nitridation; EOT; scalability;
D O I
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中图分类号
学科分类号
摘要
The NH3 thermal annealing and decoupled plasma nitridation (DPN) processes are compared for the equivalent oxide thickness (EOT) scaling of atomic-layer-deposited hafnium zirconate (HfZrO2) gate dielectric. Detailed physical, optical, and electrical characteristics of nitrided HfZrO2 (HfZrON) film are reported. It is found that DPN can yield a thinner SiOx interfacial layer (IL) (about 0.12 nm more in terms of EOT scaling) and a more densified HfZrO2 layer compared to those obtained using NH3 thermal annealing at a 16% nitrogen dose. NH3 thermal nitridation causes a large nitrogen distribution tail at the SiOx IL/Si substrate interface and increases leakage current, which suppresses EOT scalability.
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页码:535 / 539
页数:4
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