First Demonstration of Complementary FinFETs and Tunneling FinFETs Co-Integrated on a 200 mm GeSnOI Substrate: A Pathway towards Future Hybrid Nano-electronics Systems
Kaizhen Han, Ying Wu, Y. Huang, Shengqiang Xu, Annie Kumar, E. Kong, Yuye Kang, Jishen Zhang, Chengkuan Wang, Haiwen Xu, Chen Sun, X. Gong
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引用次数: 6
Abstract
For the first time, complementary FinFETs and complementary tunneling FinFETs (TFFETs), with fin width $(W_{Fin})$ of 20 nm and fin height $(H_{{fin}})$ of 50 nm, were co-integrated on the same substrate, enabled by the formation of high-quality GeSn-on-insulator (GeSnOI) substrate with 200 mm wafer size. Decent electrical characteristics were realized for both GeSn n-and p-channel FinFETs and TFFETs. We also performed simulation studies to show the promise of the GeSnOI platform, which is not only able to suppress the off-state leakage current and improve the $I_{on}/I_{off}$ ratio of tunneling FETs, but can also provide the powerful flexibility of using a back bias to achieve superior electrical characteristics beyond the benefits of incorporating Sn into Ge.
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