1. Performance and characteristics of double layer porous silicon oxide resistance random access memory.
- Author
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Tsai, Tsung-Ming, Chang, Kuan-Chang, Zhang, Rui, Chang, Ting-Chang, Lou, J. C., Chen, Jung-Hui, Young, Tai-Fa, Tseng, Bae-Heng, Shih, Chih-Cheng, Pan, Yin-Chih, Chen, Min-Chen, Pan, Jhih-Hong, Syu, Yong-En, and Sze, Simon M.
- Subjects
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ELECTRIC double layer , *POROUS silicon , *SILICON oxide spectra , *RANDOM access memory , *SWITCHING circuits , *ELECTRIC fields - Abstract
A bilayer resistive switching memory device with an inserted porous silicon oxide layer is investigated in this letter. Compared with single Zr:SiOx layer structure, Zr:SiOx/porous SiOx structure outperforms from various aspects, including low operating voltages, tighter distributions of set voltage, higher stability of both low resistance state and high resistance state, and satisfactory endurance characteristics. Electric field simulation by comsolTM Multiphysics is applied, which corroborates that intensive electric field around the pore in porous SiOx layer guides the conduction of electrons. The constraint of conduction path leads to better stabilization and prominent performance of bilayer resistive switching devices. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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