Electrical Characteristics of Magnesium Doped a-IGZO RRAM: Chemical Vapor Deposition using Enhanced Atmospheric Pressure-Plasma

Chien Hung Wu; Song Nian Kuo; Yi Ming Chen; Kow Ming Chang; Yu Yang; Albert Chin

doi:10.1109/ECICE50847.2020.9301987

Electrical Characteristics of Magnesium Doped a-IGZO RRAM: Chemical Vapor Deposition using Enhanced Atmospheric Pressure-Plasma

Chien Hung Wu^*, Song Nian Kuo, Yi Ming Chen, Kow Ming Chang, Yu Yang, Albert Chin

^*Corresponding author for this work

Institute of Electronics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

4 Scopus citations

Abstract

Since the first floating gate memory was introduced in 1968, Non-Volatile Memory (NVM) has been widely investigated and developed for permanent data storage. The progress of metal oxide semiconductor field-effect transistor (MOSFET) technology even makes the memory scalable. The scale-down of the memories faces other issues. The thinner oxide layer induces a higher leakage current and worse electrical characteristics. There are promising NVMs such as ferroelectric (FeRAM), phase-change (PCRAM), magneto-resistive (MRAM), and resistive (RRAM).In this study, RRAM devices with a metal-insulator-metal (MIM) structure are investigated. Amorphous indium gallium zinc oxide (a-IGZO) is deposited with atmosphere pressure-plasma enhanced chemical vapor deposition (AP-PECVD). The resistivity of an a-IGZO insulator is dominated by oxygen vacancy, and the electrical characteristics of RRAM devices are crucially influenced by the insulator layer. Magnesium (Mg) is doped into an a-IGZO insulator layer to modulate the RRAM device's electrical characteristics. The results show that 1% of Mg doping makes the stability progress on devices set and read process. If more Mg is doped into a-IGZO insulator layer, Mg occupies more oxygen vacancies, and RRAM devices become more unstable and unreliable.

Original language	English
Title of host publication	2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020
Editors	Teen-Hang Meen
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	121-124
Number of pages	4
ISBN (Electronic)	9781728180601
DOIs	https://doi.org/10.1109/ECICE50847.2020.9301987
State	Published - 23 Oct 2020
Event	2nd IEEE Eurasia Conference on IOT, Communication and Engineering, ECICE 2020 - Yunlin, Taiwan Duration: 23 Oct 2020 → 25 Oct 2020

Publication series

Name	2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020

Conference

Conference	2nd IEEE Eurasia Conference on IOT, Communication and Engineering, ECICE 2020
Country/Territory	Taiwan
City	Yunlin
Period	23/10/20 → 25/10/20

Keywords

IGZO
Mg dopant
RRAM and AP-PECVD

Access to Document

10.1109/ECICE50847.2020.9301987

Cite this

Wu, C. H., Kuo, S. N., Chen, Y. M., Chang, K. M., Yang, Y., & Chin, A. (2020). Electrical Characteristics of Magnesium Doped a-IGZO RRAM: Chemical Vapor Deposition using Enhanced Atmospheric Pressure-Plasma. In T.-H. Meen (Ed.), 2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020 (pp. 121-124). Article 9301987 (2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ECICE50847.2020.9301987

Wu, Chien Hung ; Kuo, Song Nian ; Chen, Yi Ming et al. / Electrical Characteristics of Magnesium Doped a-IGZO RRAM : Chemical Vapor Deposition using Enhanced Atmospheric Pressure-Plasma. 2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020. editor / Teen-Hang Meen. Institute of Electrical and Electronics Engineers Inc., 2020. pp. 121-124 (2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020).

@inproceedings{66af3240e8c44dc7bc41a1799b36f91d,

title = "Electrical Characteristics of Magnesium Doped a-IGZO RRAM: Chemical Vapor Deposition using Enhanced Atmospheric Pressure-Plasma",

abstract = "Since the first floating gate memory was introduced in 1968, Non-Volatile Memory (NVM) has been widely investigated and developed for permanent data storage. The progress of metal oxide semiconductor field-effect transistor (MOSFET) technology even makes the memory scalable. The scale-down of the memories faces other issues. The thinner oxide layer induces a higher leakage current and worse electrical characteristics. There are promising NVMs such as ferroelectric (FeRAM), phase-change (PCRAM), magneto-resistive (MRAM), and resistive (RRAM).In this study, RRAM devices with a metal-insulator-metal (MIM) structure are investigated. Amorphous indium gallium zinc oxide (a-IGZO) is deposited with atmosphere pressure-plasma enhanced chemical vapor deposition (AP-PECVD). The resistivity of an a-IGZO insulator is dominated by oxygen vacancy, and the electrical characteristics of RRAM devices are crucially influenced by the insulator layer. Magnesium (Mg) is doped into an a-IGZO insulator layer to modulate the RRAM device's electrical characteristics. The results show that 1% of Mg doping makes the stability progress on devices set and read process. If more Mg is doped into a-IGZO insulator layer, Mg occupies more oxygen vacancies, and RRAM devices become more unstable and unreliable. ",

keywords = "IGZO, Mg dopant, RRAM and AP-PECVD",

author = "Wu, {Chien Hung} and Kuo, {Song Nian} and Chen, {Yi Ming} and Chang, {Kow Ming} and Yu Yang and Albert Chin",

note = "Publisher Copyright: {\textcopyright} 2020 IEEE.; 2nd IEEE Eurasia Conference on IOT, Communication and Engineering, ECICE 2020 ; Conference date: 23-10-2020 Through 25-10-2020",

year = "2020",

month = oct,

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doi = "10.1109/ECICE50847.2020.9301987",

language = "English",

series = "2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020",

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Wu, CH, Kuo, SN, Chen, YM, Chang, KM, Yang, Y & Chin, A 2020, Electrical Characteristics of Magnesium Doped a-IGZO RRAM: Chemical Vapor Deposition using Enhanced Atmospheric Pressure-Plasma. in T-H Meen (ed.), 2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020., 9301987, 2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020, Institute of Electrical and Electronics Engineers Inc., pp. 121-124, 2nd IEEE Eurasia Conference on IOT, Communication and Engineering, ECICE 2020, Yunlin, Taiwan, 23/10/20. https://doi.org/10.1109/ECICE50847.2020.9301987

Electrical Characteristics of Magnesium Doped a-IGZO RRAM: Chemical Vapor Deposition using Enhanced Atmospheric Pressure-Plasma. / Wu, Chien Hung; Kuo, Song Nian; Chen, Yi Ming et al.
2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020. ed. / Teen-Hang Meen. Institute of Electrical and Electronics Engineers Inc., 2020. p. 121-124 9301987 (2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Electrical Characteristics of Magnesium Doped a-IGZO RRAM

T2 - 2nd IEEE Eurasia Conference on IOT, Communication and Engineering, ECICE 2020

AU - Wu, Chien Hung

AU - Kuo, Song Nian

AU - Chen, Yi Ming

AU - Chang, Kow Ming

AU - Yang, Yu

AU - Chin, Albert

PY - 2020/10/23

Y1 - 2020/10/23

N2 - Since the first floating gate memory was introduced in 1968, Non-Volatile Memory (NVM) has been widely investigated and developed for permanent data storage. The progress of metal oxide semiconductor field-effect transistor (MOSFET) technology even makes the memory scalable. The scale-down of the memories faces other issues. The thinner oxide layer induces a higher leakage current and worse electrical characteristics. There are promising NVMs such as ferroelectric (FeRAM), phase-change (PCRAM), magneto-resistive (MRAM), and resistive (RRAM).In this study, RRAM devices with a metal-insulator-metal (MIM) structure are investigated. Amorphous indium gallium zinc oxide (a-IGZO) is deposited with atmosphere pressure-plasma enhanced chemical vapor deposition (AP-PECVD). The resistivity of an a-IGZO insulator is dominated by oxygen vacancy, and the electrical characteristics of RRAM devices are crucially influenced by the insulator layer. Magnesium (Mg) is doped into an a-IGZO insulator layer to modulate the RRAM device's electrical characteristics. The results show that 1% of Mg doping makes the stability progress on devices set and read process. If more Mg is doped into a-IGZO insulator layer, Mg occupies more oxygen vacancies, and RRAM devices become more unstable and unreliable.

AB - Since the first floating gate memory was introduced in 1968, Non-Volatile Memory (NVM) has been widely investigated and developed for permanent data storage. The progress of metal oxide semiconductor field-effect transistor (MOSFET) technology even makes the memory scalable. The scale-down of the memories faces other issues. The thinner oxide layer induces a higher leakage current and worse electrical characteristics. There are promising NVMs such as ferroelectric (FeRAM), phase-change (PCRAM), magneto-resistive (MRAM), and resistive (RRAM).In this study, RRAM devices with a metal-insulator-metal (MIM) structure are investigated. Amorphous indium gallium zinc oxide (a-IGZO) is deposited with atmosphere pressure-plasma enhanced chemical vapor deposition (AP-PECVD). The resistivity of an a-IGZO insulator is dominated by oxygen vacancy, and the electrical characteristics of RRAM devices are crucially influenced by the insulator layer. Magnesium (Mg) is doped into an a-IGZO insulator layer to modulate the RRAM device's electrical characteristics. The results show that 1% of Mg doping makes the stability progress on devices set and read process. If more Mg is doped into a-IGZO insulator layer, Mg occupies more oxygen vacancies, and RRAM devices become more unstable and unreliable.

KW - IGZO

KW - Mg dopant

KW - RRAM and AP-PECVD

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U2 - 10.1109/ECICE50847.2020.9301987

DO - 10.1109/ECICE50847.2020.9301987

M3 - Conference contribution

AN - SCOPUS:85099580972

T3 - 2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020

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EP - 124

BT - 2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020

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PB - Institute of Electrical and Electronics Engineers Inc.

Y2 - 23 October 2020 through 25 October 2020

ER -

Wu CH, Kuo SN, Chen YM, Chang KM, Yang Y, Chin A. Electrical Characteristics of Magnesium Doped a-IGZO RRAM: Chemical Vapor Deposition using Enhanced Atmospheric Pressure-Plasma. In Meen TH, editor, 2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020. Institute of Electrical and Electronics Engineers Inc. 2020. p. 121-124. 9301987. (2nd IEEE Eurasia Conference on IOT, Communication and Engineering 2020, ECICE 2020). doi: 10.1109/ECICE50847.2020.9301987

Electrical Characteristics of Magnesium Doped a-IGZO RRAM: Chemical Vapor Deposition using Enhanced Atmospheric Pressure-Plasma

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