Resistive switching characteristics of hydrogen peroxide surface oxidized ZnO-based transparent resistive memory Devices

F. M. Simanjuntak; B. Pattanayak; C. C. Lin; Tseung-Yuen Tseng

doi:10.1149/07704.0155ecst

Resistive switching characteristics of hydrogen peroxide surface oxidized ZnO-based transparent resistive memory Devices

F. M. Simanjuntak, B. Pattanayak, C. C. Lin, Tseung-Yuen Tseng

Institute of Electronics

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

10 Scopus citations

Abstract

The impact of hydrogen peroxide treatment on the surface of ZnO film used for transparent resistive memory device application has been investigated. The surface oxidation was conducted by immersing the ZnO film into a hydrogen peroxide solution. Switching characteristics of as-deposited and surface-treated devices were initiated by bipolar electroformed programming. Based on our previous result, superior memory performance can be achieved when the bipolar forming process is initiated to activate the switching behavior. However, in this experiment, such bipolar forming process cannot be performed on the as-deposited device. Interestingly, after hydrogen peroxide surface treatment, the device is able to perform a successful bipolar forming, thus, shows a distinct switching characteristic. Consequently, memory performance of surface treated device exhibits good endurance as compared to the as-deposited device. This study offers a novel and simple method to enhance switching performance of the transparent resistive memory devices.

Original language	English
Title of host publication	Processes at the Semiconductor Solution Interface 7
Editors	A. Hillier, C. O'Dwyer, R. P. Lynch, H. Wang, M. Sunkara, D. N. Buckley, A. Etcheberry, P. Vereecken
Publisher	Electrochemical Society Inc.
Pages	155-160
Number of pages	6
Edition	4
ISBN (Electronic)	9781607685395
DOIs	https://doi.org/10.1149/07704.0155ecst
State	Published - 1 Jan 2017
Event	Processes at the Semiconductor Solution Interface 7, PSSI 2017 - 231st ECS Meeting 2017 - New Orleans, United States Duration: 28 May 2017 → 1 Jun 2017

Publication series

Name	ECS Transactions
Number	4
Volume	77
ISSN (Print)	1938-5862
ISSN (Electronic)	1938-6737

Conference

Conference	Processes at the Semiconductor Solution Interface 7, PSSI 2017 - 231st ECS Meeting 2017
Country	United States
City	New Orleans
Period	28/05/17 → 1/06/17

Access to Document

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Simanjuntak, F. M., Pattanayak, B., Lin, C. C., & Tseng, T-Y. (2017). Resistive switching characteristics of hydrogen peroxide surface oxidized ZnO-based transparent resistive memory Devices. In A. Hillier, C. O'Dwyer, R. P. Lynch, H. Wang, M. Sunkara, D. N. Buckley, A. Etcheberry, & P. Vereecken (Eds.), Processes at the Semiconductor Solution Interface 7 (4 ed., pp. 155-160). (ECS Transactions; Vol. 77, No. 4). Electrochemical Society Inc.. https://doi.org/10.1149/07704.0155ecst

Simanjuntak, F. M. ; Pattanayak, B. ; Lin, C. C. ; Tseng, Tseung-Yuen. / Resistive switching characteristics of hydrogen peroxide surface oxidized ZnO-based transparent resistive memory Devices. Processes at the Semiconductor Solution Interface 7. editor / A. Hillier ; C. O'Dwyer ; R. P. Lynch ; H. Wang ; M. Sunkara ; D. N. Buckley ; A. Etcheberry ; P. Vereecken. 4. ed. Electrochemical Society Inc., 2017. pp. 155-160 (ECS Transactions; 4).

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title = "Resistive switching characteristics of hydrogen peroxide surface oxidized ZnO-based transparent resistive memory Devices",

abstract = "The impact of hydrogen peroxide treatment on the surface of ZnO film used for transparent resistive memory device application has been investigated. The surface oxidation was conducted by immersing the ZnO film into a hydrogen peroxide solution. Switching characteristics of as-deposited and surface-treated devices were initiated by bipolar electroformed programming. Based on our previous result, superior memory performance can be achieved when the bipolar forming process is initiated to activate the switching behavior. However, in this experiment, such bipolar forming process cannot be performed on the as-deposited device. Interestingly, after hydrogen peroxide surface treatment, the device is able to perform a successful bipolar forming, thus, shows a distinct switching characteristic. Consequently, memory performance of surface treated device exhibits good endurance as compared to the as-deposited device. This study offers a novel and simple method to enhance switching performance of the transparent resistive memory devices.",

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Simanjuntak, FM, Pattanayak, B, Lin, CC & Tseng, T-Y 2017, Resistive switching characteristics of hydrogen peroxide surface oxidized ZnO-based transparent resistive memory Devices. in A Hillier, C O'Dwyer, RP Lynch, H Wang, M Sunkara, DN Buckley, A Etcheberry & P Vereecken (eds), Processes at the Semiconductor Solution Interface 7. 4 edn, ECS Transactions, no. 4, vol. 77, Electrochemical Society Inc., pp. 155-160, Processes at the Semiconductor Solution Interface 7, PSSI 2017 - 231st ECS Meeting 2017, New Orleans, United States, 28/05/17. https://doi.org/10.1149/07704.0155ecst

Resistive switching characteristics of hydrogen peroxide surface oxidized ZnO-based transparent resistive memory Devices. / Simanjuntak, F. M.; Pattanayak, B.; Lin, C. C.; Tseng, Tseung-Yuen.

Processes at the Semiconductor Solution Interface 7. ed. / A. Hillier; C. O'Dwyer; R. P. Lynch; H. Wang; M. Sunkara; D. N. Buckley; A. Etcheberry; P. Vereecken. 4. ed. Electrochemical Society Inc., 2017. p. 155-160 (ECS Transactions; Vol. 77, No. 4).

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

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T1 - Resistive switching characteristics of hydrogen peroxide surface oxidized ZnO-based transparent resistive memory Devices

AU - Simanjuntak, F. M.

AU - Pattanayak, B.

AU - Lin, C. C.

AU - Tseng, Tseung-Yuen

PY - 2017/1/1

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N2 - The impact of hydrogen peroxide treatment on the surface of ZnO film used for transparent resistive memory device application has been investigated. The surface oxidation was conducted by immersing the ZnO film into a hydrogen peroxide solution. Switching characteristics of as-deposited and surface-treated devices were initiated by bipolar electroformed programming. Based on our previous result, superior memory performance can be achieved when the bipolar forming process is initiated to activate the switching behavior. However, in this experiment, such bipolar forming process cannot be performed on the as-deposited device. Interestingly, after hydrogen peroxide surface treatment, the device is able to perform a successful bipolar forming, thus, shows a distinct switching characteristic. Consequently, memory performance of surface treated device exhibits good endurance as compared to the as-deposited device. This study offers a novel and simple method to enhance switching performance of the transparent resistive memory devices.

AB - The impact of hydrogen peroxide treatment on the surface of ZnO film used for transparent resistive memory device application has been investigated. The surface oxidation was conducted by immersing the ZnO film into a hydrogen peroxide solution. Switching characteristics of as-deposited and surface-treated devices were initiated by bipolar electroformed programming. Based on our previous result, superior memory performance can be achieved when the bipolar forming process is initiated to activate the switching behavior. However, in this experiment, such bipolar forming process cannot be performed on the as-deposited device. Interestingly, after hydrogen peroxide surface treatment, the device is able to perform a successful bipolar forming, thus, shows a distinct switching characteristic. Consequently, memory performance of surface treated device exhibits good endurance as compared to the as-deposited device. This study offers a novel and simple method to enhance switching performance of the transparent resistive memory devices.

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Simanjuntak FM, Pattanayak B, Lin CC, Tseng T-Y. Resistive switching characteristics of hydrogen peroxide surface oxidized ZnO-based transparent resistive memory Devices. In Hillier A, O'Dwyer C, Lynch RP, Wang H, Sunkara M, Buckley DN, Etcheberry A, Vereecken P, editors, Processes at the Semiconductor Solution Interface 7. 4 ed. Electrochemical Society Inc. 2017. p. 155-160. (ECS Transactions; 4). https://doi.org/10.1149/07704.0155ecst