摘要Different TiOx thin films prepared by graded or sufficient oxidization of Ti are applied with Pt or Ag electrode in metal−insulator-metal (MIM) structures for studying the properties and mechanisms of resistive switching. The differences on the mobile oxygen vacancies in TiOx films and different work functions of the electrode films result in different insulator-metal interface states, which are displayed as ohmic-like or non-ohmic contact. Based on the interface states, the electrical models for MIM devices are analyzed and extracted. The electrode-limited effect and the bulk-limited effect can be unified to explain the mechanisms for resistive switching behavior as the dominant effect respectively in various conditions. All the current-voltage curves of the four kinds of specimens measured in the experiments can be explained and proved in accordance with the theory.
Abstract:Different TiOx thin films prepared by graded or sufficient oxidization of Ti are applied with Pt or Ag electrode in metal−insulator-metal (MIM) structures for studying the properties and mechanisms of resistive switching. The differences on the mobile oxygen vacancies in TiOx films and different work functions of the electrode films result in different insulator-metal interface states, which are displayed as ohmic-like or non-ohmic contact. Based on the interface states, the electrical models for MIM devices are analyzed and extracted. The electrode-limited effect and the bulk-limited effect can be unified to explain the mechanisms for resistive switching behavior as the dominant effect respectively in various conditions. All the current-voltage curves of the four kinds of specimens measured in the experiments can be explained and proved in accordance with the theory.
(Dielectric, ferroelectric, and piezoelectric devices)
引用本文:
JIA Ze**;WANG Lin-Kai;REN Tian-Ling. Influences of Interface States on Resistive Switching Properties of TiOx with Different Electrodes[J]. 中国物理快报, 2010, 27(11): 118503-118503.
JIA Ze**, WANG Lin-Kai, REN Tian-Ling. Influences of Interface States on Resistive Switching Properties of TiOx with Different Electrodes. Chin. Phys. Lett., 2010, 27(11): 118503-118503.
[1] Baikalov A, Wang Y Q, Shen B, Lorenz B, Tsui S, Sun Y Y, Xue Y Y and Chu C W 2003 Appl. Phys. Lett. 83 957
[2] Sawa A, Fujii T, Kawasaki M and Tokura Y 2004 Appl. Phys. Lett. 85 4073
[3] Lv H B, Zhou P, Fu X F, Yin M, Song Y L, Tang L, Tang T A and Lin Y Y 2008 Chin. Phys. Lett. 25 1087
[4] Cagli C, Nardi F and Ielmini D 2009 IEEE Trans. Electron Devices 56 1712
[5] Lee M D, Ho C H, Lo C K, Peng T Y and Yao Y D 2007 IEEE Trans. Electron. Devices 43 939
[6] Yu L E, Kim S, Ryu M K, Choi S Y and Choi Y K 2008 IEEE Electron. Device Lett. 29 331
[7] Kim S and Choi Y K 2009 IEEE Trans. Electron. Devices 56 3049
[8] Choi B J, Jeong D S, Kim S K, Rohde C, Choi S, Oh J H, Kim H J, Hwang C S, Szot K, Waser R, Reichenberg B and Tiedke S 2005 J. Appl. Phys. 98 No.033715
[9] Ho C H, Lai E K, Lee M D, Pan C L, Yao Y D, Hsieh K Y, Liu R and Lu C Y 2007 IEEE Symposium on VLSI Technology Digest of Technical p 228
[10] Sun B, Liu L F, Han D D, Wand Y, Liu X Y, Han R Q and Kang J F 2008 Chin. Phys. Lett. 25 2187
[11] Xia Y D, He W Y, Chen L, Meng X K and Liu Z G 2007 Appl. Phys. Lett. 90 022907
[12] Yang J J, Pickett M D, Li X, Ohlberg D A A, Stewart D R and Williams R S 2008 Nature Nanotechnol. 3 429
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