Author:
Li Chen,Lin Hongxiao,Li Junjie,Yin Xiaogen,Zhang Yongkui,Kong Zhenzhen,Wang Guilei,Zhu Huilong,Radamson Henry H.
Abstract
AbstractVertical gate-all-around field-effect transistors (vGAAFETs) are considered as the potential candidates to replace FinFETs for advanced integrated circuit manufacturing technology at/beyond 3-nm technology node. A multilayer (ML) of Si/SiGe/Si is commonly grown and processed to form vertical transistors. In this work, the P-incorporation in Si/SiGe/Si and vertical etching of these MLs followed by selective etching SiGe in lateral direction to form structures for vGAAFET have been studied. Several strategies were proposed for the epitaxy such as hydrogen purging to deplete the access of P atoms on Si surface, and/or inserting a Si or Si0.93Ge0.07 spacers on both sides of P-doped Si layers, and substituting SiH4 by SiH2Cl2 (DCS). Experimental results showed that the segregation and auto-doping could also be relieved by adding 7% Ge to P-doped Si. The structure had good lattice quality and almost had no strain relaxation. The selective etching between P-doped Si (or P-doped Si0.93Ge0.07) and SiGe was also discussed by using wet and dry etching. The performance and selectivity of different etching methods were also compared. This paper provides knowledge of how to deal with the challenges or difficulties of epitaxy and etching of n-type layers in vertical GAAFETs structure.
Funder
the National Key Research and Development Program of China
Director Fund of the Institute of Microelectronics of the Chinese Academy of Sciences
the projects of the construction of new research and development institutions
National Key Project of Science and Technology of China
Youth Innovation Promotion Association of CAS
Research on Novel Nanowire Transistors and Applications
the construction of high-level innovation research institute from the Guangdong Greater Bay Area Institute of Integrated Circuit and System
the National Key Project of Science and Technology of China
the Youth Innovation Promotion Association of CAS
Publisher
Springer Science and Business Media LLC
Subject
Condensed Matter Physics,General Materials Science
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