Low temperature processed, highly stable CMOS inverter by integrating Zn-ON and tellurium thin-film transistors

Muhammad Naqi; Seong Cheol Jang; Yongin Cho; Ji Min Park; Joo On Oh; Hyun Yeol Rho; Hyun Suk Kim; Sunkook Kim

doi:10.1080/15980316.2023.2174195

Low temperature processed, highly stable CMOS inverter by integrating Zn-ON and tellurium thin-film transistors

Muhammad Naqi
, Seong Cheol Jang
, Yongin Cho
, Ji Min Park
, Joo On Oh
, Hyun Yeol Rho
, Hyun Suk Kim
, Sunkook Kim

Department of Energy and Materials Engineering

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Semiconductors processed at low temperature for complementary metal–oxide semiconductors (CMOS) devices are receiving considerable attention in the field of integrated electronic applications. In this work, we demonstrated a CMOS inverter constructed by n-type ZnON and p-type Te TFTs where all the processes have been done at low temperature. The electrical measurements of proposed TFTs exhibit high mobility (> 100 and > 3 cm²/Vs in case of ZnON and Te TFTs, respectively) and a stable on/off current ratio. The resulted CMOS inverter exhibits a high voltage swing and a high voltage gain of 15.89. Since all the synthesis and fabrication processes are performed at low temperatures with easy processing techniques, the results may open new opportunities in the field of integrated electronics field.

Original language	English
Pages (from-to)	199-204
Number of pages	6
Journal	Journal of Information Display
Volume	24
Issue number	3
DOIs	https://doi.org/10.1080/15980316.2023.2174195
State	Published - 2023

Keywords

CMOS inverter
high mobility
low-temperature
tellurium
ZnON

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10.1080/15980316.2023.2174195

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title = "Low temperature processed, highly stable CMOS inverter by integrating Zn-ON and tellurium thin-film transistors",

abstract = "Semiconductors processed at low temperature for complementary metal–oxide semiconductors (CMOS) devices are receiving considerable attention in the field of integrated electronic applications. In this work, we demonstrated a CMOS inverter constructed by n-type ZnON and p-type Te TFTs where all the processes have been done at low temperature. The electrical measurements of proposed TFTs exhibit high mobility (> 100 and > 3 cm2/Vs in case of ZnON and Te TFTs, respectively) and a stable on/off current ratio. The resulted CMOS inverter exhibits a high voltage swing and a high voltage gain of 15.89. Since all the synthesis and fabrication processes are performed at low temperatures with easy processing techniques, the results may open new opportunities in the field of integrated electronics field.",

keywords = "CMOS inverter, high mobility, low-temperature, tellurium, ZnON",

author = "Muhammad Naqi and Jang, \{Seong Cheol\} and Yongin Cho and Park, \{Ji Min\} and Oh, \{Joo On\} and Rho, \{Hyun Yeol\} and Kim, \{Hyun Suk\} and Sunkook Kim",

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doi = "10.1080/15980316.2023.2174195",

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T1 - Low temperature processed, highly stable CMOS inverter by integrating Zn-ON and tellurium thin-film transistors

AU - Naqi, Muhammad

AU - Jang, Seong Cheol

AU - Cho, Yongin

AU - Park, Ji Min

AU - Oh, Joo On

AU - Rho, Hyun Yeol

AU - Kim, Hyun Suk

AU - Kim, Sunkook

PY - 2023

Y1 - 2023

N2 - Semiconductors processed at low temperature for complementary metal–oxide semiconductors (CMOS) devices are receiving considerable attention in the field of integrated electronic applications. In this work, we demonstrated a CMOS inverter constructed by n-type ZnON and p-type Te TFTs where all the processes have been done at low temperature. The electrical measurements of proposed TFTs exhibit high mobility (> 100 and > 3 cm2/Vs in case of ZnON and Te TFTs, respectively) and a stable on/off current ratio. The resulted CMOS inverter exhibits a high voltage swing and a high voltage gain of 15.89. Since all the synthesis and fabrication processes are performed at low temperatures with easy processing techniques, the results may open new opportunities in the field of integrated electronics field.

AB - Semiconductors processed at low temperature for complementary metal–oxide semiconductors (CMOS) devices are receiving considerable attention in the field of integrated electronic applications. In this work, we demonstrated a CMOS inverter constructed by n-type ZnON and p-type Te TFTs where all the processes have been done at low temperature. The electrical measurements of proposed TFTs exhibit high mobility (> 100 and > 3 cm2/Vs in case of ZnON and Te TFTs, respectively) and a stable on/off current ratio. The resulted CMOS inverter exhibits a high voltage swing and a high voltage gain of 15.89. Since all the synthesis and fabrication processes are performed at low temperatures with easy processing techniques, the results may open new opportunities in the field of integrated electronics field.

KW - CMOS inverter

KW - high mobility

KW - low-temperature

KW - tellurium

KW - ZnON

UR - https://www.scopus.com/pages/publications/85147742535

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DO - 10.1080/15980316.2023.2174195

M3 - Article

AN - SCOPUS:85147742535

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JO - Journal of Information Display

JF - Journal of Information Display

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ER -

Low temperature processed, highly stable CMOS inverter by integrating Zn-ON and tellurium thin-film transistors

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Keywords

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