| Literature DB >> 26544156 |
Byung-Hyun Lee1,2, Min-Ho Kang3, Dae-Chul Ahn1, Jun-Young Park1, Tewook Bang1, Seung-Bae Jeon1, Jae Hur1, Dongil Lee1, Yang-Kyu Choi1.
Abstract
A vertically integrated multiple channel-based field-effect transistor (FET) with the highest number of nanowires reported ever is demonstrated on a bulk silicon substrate without use of wet etching. The driving current is increased by 5-fold due to the inherent vertically stacked five-level nanowires, thus showing good feasibility of three-dimensional integration-based high performance transistor. The developed fabrication process, which is simple and reproducible, is used to create multiple stiction-free and uniformly sized nanowires with the aid of the one-route all-dry etching process (ORADEP). Furthermore, the proposed FET is revamped to create nonvolatile memory with the adoption of a charge trapping layer for enhanced practicality. Thus, this research suggests an ultimate design for the end-of-the-roadmap devices to overcome the limits of scaling.Entities:
Keywords: field-effect transistor (FET); gate-all-around (GAA); one-route all-dry etch; silicon nanowire (SiNW); three-dimensional nonvolatile memory; vertical integration
Year: 2015 PMID: 26544156 DOI: 10.1021/acs.nanolett.5b03460
Source DB: PubMed Journal: Nano Lett ISSN: 1530-6984 Impact factor: 11.189