Your search keyword '"Zhang, Yongkui"' showing total 2 results

1. Investigation on Ge 0.8 Si 0.2 -Selective Atomic Layer Wet-Etching of Ge for Vertical Gate-All-Around Nanodevice.

Author

Xie, Lu, Zhu, Huilong, Zhang, Yongkui, Ai, Xuezheng, Li, Junjie, Wang, Guilei, Du, Anyan, Kong, Zhenzhen, Wang, Qi, Lu, Shunshun, Li, Chen, Li, Yangyang, Huang, Weixing, and Radamson, Henry H.

Subjects

SILICON nanowires, FIELD-effect transistors, ALE, ETCHING

Abstract

For the formation of nano-scale Ge channels in vertical Gate-all-around field-effect transistors (vGAAFETs), the selective isotropic etching of Ge selective to Ge0.8Si0.2 was considered. In this work, a dual-selective atomic layer etching (ALE), including Ge0.8Si0.2-selective etching of Ge and crystal-orientation selectivity of Ge oxidation, has been developed to control the etch rate and the size of the Ge nanowires. The ALE of Ge in p+-Ge0.8Si0.2/Ge stacks with 70% HNO3 as oxidizer and deionized (DI) water as oxide-removal was investigated in detail. The saturated relative etched amount per cycle (REPC) and selectivity at different HNO3 temperatures between Ge and p+-Ge0.8Si0.2 were obtained. In p+-Ge0.8Si0.2/Ge stacks with (110) sidewalls, the REPC of Ge was 3.1 nm and the saturated etching selectivity was 6.5 at HNO3 temperature of 20 °C. The etch rate and the selectivity were affected by HNO3 temperatures. As the HNO3 temperature decreased to 10 °C, the REPC of Ge was decreased to 2 nm and the selectivity remained at about 7.4. Finally, the application of ALE in the formation of Ge nanowires in vGAAFETs was demonstrated where the preliminary Id–Vds output characteristic curves of Ge vGAAFET were provided. [ABSTRACT FROM AUTHOR]

Published

2021

2. Cryogenic Transport Characteristics of P-Type Gate-All-Around Silicon Nanowire MOSFETs.

Author

Gu, Jie, Zhang, Qingzhu, Wu, Zhenhua, Yao, Jiaxin, Zhang, Zhaohao, Zhu, Xiaohui, Wang, Guilei, Li, Junjie, Zhang, Yongkui, Cai, Yuwei, Xu, Renren, Xu, Gaobo, Xu, Qiuxia, Yin, Huaxiang, Luo, Jun, Wang, Wenwu, Ye, Tianchun, and Nogales, Emilio

Subjects

SILICON nanowires, METAL oxide semiconductor field-effect transistors, FIELD-effect transistors, QUANTUM interference

Abstract

A 16-nm-Lg p-type Gate-all-around (GAA) silicon nanowire (Si NW) metal oxide semiconductor field effect transistor (MOSFET) was fabricated based on the mainstream bulk fin field-effect transistor (FinFET) technology. The temperature dependence of electrical characteristics for normal MOSFET as well as the quantum transport at cryogenic has been investigated systematically. We demonstrate a good gate-control ability and body effect immunity at cryogenic for the GAA Si NW MOSFETs and observe the transport of two-fold degenerate hole sub-bands in the nanowire (110) channel direction sub-band structure experimentally. In addition, the pronounced ballistic transport characteristics were demonstrated in the GAA Si NW MOSFET. Due to the existence of spacers for the typical MOSFET, the quantum interference was also successfully achieved at lower bias. [ABSTRACT FROM AUTHOR]

Published

2021