Therefore, this self-compliant W/TaO x /TiN device will have great potential
for future non-volatile memory application. Acknowledgements This work was supported by the National Science Council (NSC) of Taiwan, under contract no. NSC-102-2221-E-182-057-MY2. The authors are AZD2281 grateful to Electronics and Optoelectronics Research Laboratories (EOL)/Industrial Technology Research Institute (ITRI), Hsinchu, for their support of the patterned wafers. References 1. Waser R, Dittmann R, Staikov G, Szot K: Redox-based resistive switching memories: nanoionic mechanisms, prospects, and challenges. Adv Mater 2009, 21:2632.CrossRef 2. Lee M-J, Lee CB, Lee D, Lee SR, Chang M, Hur JH, Kim Y-B, Kim C-J, Seo DH, Seo S, Chung UI, Yoo I-K, CHIR-99021 manufacturer Kim K: A fast, high-endurance and scalable non-volatile memory device made from asymmetric Ta 2 O 5− x /TaO 2− x bilayer structures. Nat Mater 2011, 10:625.CrossRef 3. Prakash A, Jana D, Maikap S: TaO x -based resistive switching memories: prospective and challenges. Nanoscale Res Lett 2013, 8:418.CrossRef 4. Long S, Cagli C, Ielmini D, Liu M, Suñé J: Reset statistics of NiO – based resistive switching AZD8931 research buy memories . IEEE Electron Device Lett 2011, 32:1570.CrossRef 5. Panda D, Dhar A, Ray SK: Nonvolatile and unipolar resistive switching characteristics of pulsed laser ablated NiO films. J Appl Phys 2010, 108:104513.CrossRef 6. Feng M, Yang
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