Gateless and capacitorless germanium biristor with a vertical pillar structure

Hagyoul Bae; Geon Beom Lee; Jae Hur; Jun Young Park; Da Jin Kim; Myung Su Kim; Yang Kyu Choi

doi:10.3390/mi12080899

Gateless and capacitorless germanium biristor with a vertical pillar structure

Hagyoul Bae
, Geon Beom Lee
, Jae Hur
, Jun Young Park
, Da Jin Kim
, Myung Su Kim
, Yang Kyu Choi^*

^*Corresponding author for this work

Division of Electronic Engineering

Purdue University
Korea Advanced Institute of Science and Technology
Georgia Institute of Technology
Chungbuk National University

Research output: Contribution to journal › Journal article › peer-review

3 Scopus citations

Abstract

For the first time, a novel germanium (Ge) bi-stable resistor (biristor) with a vertical pillar structure was implemented on a bulk substrate. The basic structure of the Ge pillar-typed biristor is a p-n-p bipolar junction transistor (BJT) with an open base (floating), which is equivalent to a gate-less p-channel metal oxide semiconductor field-effect transistor (MOSFET). In the pillar formation, we adopted an amorphous carbon layer to protect the Ge surface from both physical and chemical damage by subsequent processes. A hysteric current-voltage (I-V) characteristic, which results in a sustainable binary state, i.e., high current and low current at the same voltage, can be utilized for a memory device. A lower operating voltage with high current was achieved, compared to a Si biristor, due to the low energy bandgap of pure Ge.

Original language	English
Article number	899
Journal	Micromachines
Volume	12
Issue number	8
DOIs	https://doi.org/10.3390/mi12080899
State	Published - 2021.08

Keywords

Amorphous carbon layer
Capacitorless structure
DRAM
Gateless structure
Ge biristor
Vertical memory

Access to Document

10.3390/mi12080899

Cite this

@article{37c641cbae1d4c54bf10f15085870e0f,

title = "Gateless and capacitorless germanium biristor with a vertical pillar structure",

abstract = "For the first time, a novel germanium (Ge) bi-stable resistor (biristor) with a vertical pillar structure was implemented on a bulk substrate. The basic structure of the Ge pillar-typed biristor is a p-n-p bipolar junction transistor (BJT) with an open base (floating), which is equivalent to a gate-less p-channel metal oxide semiconductor field-effect transistor (MOSFET). In the pillar formation, we adopted an amorphous carbon layer to protect the Ge surface from both physical and chemical damage by subsequent processes. A hysteric current-voltage (I-V) characteristic, which results in a sustainable binary state, i.e., high current and low current at the same voltage, can be utilized for a memory device. A lower operating voltage with high current was achieved, compared to a Si biristor, due to the low energy bandgap of pure Ge.",

keywords = "Amorphous carbon layer, Capacitorless structure, DRAM, Gateless structure, Ge biristor, Vertical memory",

author = "Hagyoul Bae and Lee, \{Geon Beom\} and Jae Hur and Park, \{Jun Young\} and Kim, \{Da Jin\} and Kim, \{Myung Su\} and Choi, \{Yang Kyu\}",

note = "Publisher Copyright: {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2021",

month = aug,

doi = "10.3390/mi12080899",

language = "English",

volume = "12",

journal = "Micromachines",

issn = "2072-666X",

number = "8",

}

TY - JOUR

T1 - Gateless and capacitorless germanium biristor with a vertical pillar structure

AU - Bae, Hagyoul

AU - Lee, Geon Beom

AU - Hur, Jae

AU - Park, Jun Young

AU - Kim, Da Jin

AU - Kim, Myung Su

AU - Choi, Yang Kyu

PY - 2021/8

Y1 - 2021/8

N2 - For the first time, a novel germanium (Ge) bi-stable resistor (biristor) with a vertical pillar structure was implemented on a bulk substrate. The basic structure of the Ge pillar-typed biristor is a p-n-p bipolar junction transistor (BJT) with an open base (floating), which is equivalent to a gate-less p-channel metal oxide semiconductor field-effect transistor (MOSFET). In the pillar formation, we adopted an amorphous carbon layer to protect the Ge surface from both physical and chemical damage by subsequent processes. A hysteric current-voltage (I-V) characteristic, which results in a sustainable binary state, i.e., high current and low current at the same voltage, can be utilized for a memory device. A lower operating voltage with high current was achieved, compared to a Si biristor, due to the low energy bandgap of pure Ge.

AB - For the first time, a novel germanium (Ge) bi-stable resistor (biristor) with a vertical pillar structure was implemented on a bulk substrate. The basic structure of the Ge pillar-typed biristor is a p-n-p bipolar junction transistor (BJT) with an open base (floating), which is equivalent to a gate-less p-channel metal oxide semiconductor field-effect transistor (MOSFET). In the pillar formation, we adopted an amorphous carbon layer to protect the Ge surface from both physical and chemical damage by subsequent processes. A hysteric current-voltage (I-V) characteristic, which results in a sustainable binary state, i.e., high current and low current at the same voltage, can be utilized for a memory device. A lower operating voltage with high current was achieved, compared to a Si biristor, due to the low energy bandgap of pure Ge.

KW - Amorphous carbon layer

KW - Capacitorless structure

KW - DRAM

KW - Gateless structure

KW - Ge biristor

KW - Vertical memory

UR - https://www.scopus.com/pages/publications/85112624131

U2 - 10.3390/mi12080899

DO - 10.3390/mi12080899

M3 - Journal article

AN - SCOPUS:85112624131

SN - 2072-666X

VL - 12

JO - Micromachines

JF - Micromachines

IS - 8

M1 - 899

ER -

Gateless and capacitorless germanium biristor with a vertical pillar structure

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this