ZnO/Si and ZnO/Ge bilayer tunneling field effect transistors: Experimental characterization of electrical properties

In this study, we experimentally characterize the electrical properties of a bilayer tunneling field effect transistor (TFET) with a heterotunneling junction composed of an oxide-semiconductor source and a group-IV-semiconductor channel in detail. Bilayer TFETs with a n-ZnO/p-Si or n-ZnO/p-Ge hetero...

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Bibliographic Details
Published inJournal of applied physics Vol. 125; no. 19
Main Authors Kato, Kimihiko, Matsui, Hiroaki, Tabata, Hitoshi, Takenaka, Mitsuru, Takagi, Shinichi
Format Journal Article
LanguageEnglish
Published Melville American Institute of Physics 21.05.2019
Subjects
Applied physics
Bilayers
Dependence
Electrical properties
Field effect transistors
Germanium
Impurities
Pulsed laser deposition
Pulsed lasers
Semiconductor devices
Silicon
Thin film transistors
Transistors
Zinc oxide
Zinc oxides
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Summary:In this study, we experimentally characterize the electrical properties of a bilayer tunneling field effect transistor (TFET) with a heterotunneling junction composed of an oxide-semiconductor source and a group-IV-semiconductor channel in detail. Bilayer TFETs with a n-ZnO/p-Si or n-ZnO/p-Ge heterotunneling junction with type-II energy band alignment are fabricated by pulsed-laser deposition of a zinc oxide (ZnO) layer on Si or Ge with various impurity concentrations. The evidence of the TFET operation are examined through a comparison of the electrical characteristics with ZnO thin film transistors as well as the tunneling junction area dependence, which is important for clarifying the operating mechanism. The source material and its impurity concentration significantly affect the Id-Vg and Id-Vd characteristics of the bilayer TFETs, with reducing tunneling barrier height and tunneling distance. The influence of the source materials and doping concentrations is also studied by simulation. As a result, the minimum subthreshold swing (SS) of 71 mV/dec and the Ion/Ioff ratio of ∼6 × 108 have been achieved for n-ZnO/p-Si and n-ZnO/p-Ge TFETs, respectively, at room temperature. It is also found that the fabricated TFET shows weak measurement temperature dependencies of Ion and SS, which are expected for TFETs, with the extremely low off-state current in a fA/μm range. These characterizations of the electrical characteristics of the bilayer TFETs are important not only for a physical understanding of the operating mechanism but also for further improvement of the TFET performance.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.5088893