Title :
Resistive-Gate Field-Effect Transistor: A Novel Steep-Slope Device Based on a Metal—Insulator—Metal—Oxide Gate Stack
Author :
Qianqian Huang ; Ru Huang ; Yue Pan ; Shenghu Tan ; Yangyuan Wang
Author_Institution :
Inst. of Microelectron., Peking Univ., Beijing, China
Abstract :
A novel silicon-based resistive-gate field-effect transistor (ReFET) with metal-insulator-metal-oxide gate stack is proposed. With the abrupt resistance change event from high-resistance state to low-resistance state in the introduced insulator layer, the threshold voltage of ReFET can be suddenly decreased, resulting in an abrupt switching of drain current. The device is capable of sub-60-mV/decade subthreshold slope (SS), as well as MOSFET-comparable ON-current. The fabricated n-type ReFET device with Pt/TiN/TaOx/Poly-Si/SiO2 gate stack can achieve steep SS of 8 mV/decade. With future materials and threshold voltage optimization, high ION/IOFF ratio with reduced operation voltage can be expected, which shows that ReFET is a promising candidate for ultralow power applications.
Keywords :
MIM structures; insulated gate field effect transistors; platinum; silicon; silicon compounds; tantalum; titanium; Pt-TiN-TaOx-Si-SiO2; ReFET; high-resistance state; low-resistance state; metal-insulator-metal-oxide gate stack; resistive gate field effect transistor; steep slope device; ultralow power application; Insulators; Logic gates; MOSFET; Switches; Threshold voltage; Tin; Resistive-gate field-effect transistor (ReFET); resistive switching; resistive switching.; steep-slope; subthreshold slope;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2014.2327219
