Your search keyword '"Syu, Yong-En"' showing total 11 results

1. Mechanism of power consumption inhibitive multi-layer Zn:SiO2/SiO2 structure resistance random access memory.

Author

Zhang, Rui, Tsai, Tsung-Ming, Chang, Ting-Chang, Chang, Kuan-Chang, Chen, Kai-Huang, Lou, Jen-Chung, Young, Tai-Fa, Chen, Jung-Hui, Huang, Syuan-Yong, Chen, Min-Chen, Shih, Chih-Cheng, Chen, Hsin-Lu, Pan, Jhih-Hong, Tung, Cheng-Wei, Syu, Yong-En, and Sze, Simon M.

Subjects

SILICON oxide, RANDOM access memory, ENERGY consumption research, ENERGY research, AUGER electron spectroscopy

Abstract

In this paper, multi-layer Zn:SiO2/SiO2 structure is introduced to reduce the operation power consumption of resistive random access memory (RRAM) device by modifying the filament formation process. And the configuration of multi-layer Zn:SiO2/SiO2 structure is confirmed and demonstrated by auger electron spectrum. Material analysis together with conduction current fitting is applied to qualitatively evaluate the carrier conduction mechanism on both low resistance state and high resistance state. Finally, single layer and multilayer conduction models are proposed, respectively, to clarify the corresponding conduction characteristics of two types of RRAM devices. [ABSTRACT FROM AUTHOR]

Published

2013

2. Performance and characteristics of double layer porous silicon oxide resistance random access memory.

Author

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

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

3. Atomic-level quantized reaction of HfOx memristor.

Author

Syu, Yong-En, Chang, Ting-Chang, Lou, Jyun-Hao, Tsai, Tsung-Ming, Chang, Kuan-Chang, Tsai, Ming-Jinn, Wang, Ying-Lang, Liu, Ming, and Sze, Simon M.

Subjects

*MEMRISTORS, *NUCLEAR reactions, *SWITCHING circuits, *METAL fibers, *ENERGY consumption, *CLOUD computing, *MOTHERBOARDS

Abstract

In this study, we have observed dynamic switching behaviors in a memristive device. There are only a few atoms in the resistive switching reaction which enables the high-speed resistive switching characteristics, which was analyzed dynamically by real-time analyzing tools. From fundamental conductance considerations, the resistance of the conductive path in HfOx memristor is found to be due to barriers which are atomically incremented during the RESET process. Simultaneously, we have demonstrated the quantized switching phenomena at ultra-cryogenic temperature (4 K), which are attributed to the atomic-level reaction in metallic filament. [ABSTRACT FROM AUTHOR]

Published

2013

4. Dehydroxyl effect of Sn-doped silicon oxide resistance random access memory with supercritical CO2 fluid treatment.

Author

Tsai, Tsung-Ming, Chang, Kuan-Chang, Chang, Ting-Chang, Syu, Yong-En, Liao, Kuo-Hsiao, Tseng, Bae-Heng, and Sze, Simon M.

Subjects

SILICON oxide, RANDOM access memory, SUPERCRITICAL fluids, PHOTOELECTRON spectroscopy, FOURIER transform infrared spectroscopy

Abstract

The tin-doped can supply conduction path to induce resistance switching behavior. However, the defect of tin-doped silicon oxide (Sn:SiOx) increased the extra leakage path lead to power consumption and joule heating degradation. In the study, supercritical CO2 fluids treatment was used to improve resistive switching property. The current conduction of high resistant state in post-treated Sn:SiOx film was transferred to Schottky emission from Frenkel-Poole due to the passivation effect. The molecular reaction model is proposed that the defect was passivated through dehydroxyl effect of supercritical fluid technology, verified by material analyses of x-ray photoelectron spectroscopy and Fourier transform infrared spectroscopy. [ABSTRACT FROM AUTHOR]

Published

2012

5. Silicon introduced effect on resistive switching characteristics of WOX thin films.

Author

Syu, Yong-En, Chang, Ting-Chang, Tsai, Tsung-Ming, Chang, Geng-Wei, Chang, Kuan-Chang, Tai, Ya-Hsiang, Tsai, Ming-Jinn, Wang, Ying-Lang, and Sze, Simon M.

Subjects

*SILICON, *RANDOM access memory, *THIN films, *COMPLEMENTARY metal oxide semiconductors, *OXIDATION

Abstract

The switching layer with Si interfusion is investigated to improve the electrical characteristics of WOX resistance random access memory (RRAM). The WOX has attracted extensive attention for RRAM because it can form by converting the surface of the W-plug with a current complementary metal oxide semiconductor (CMOS) compatible thermal oxidation process. In general, the resistance switching behavior of WOX-RRAM devices is unstable because the diverse oxidation state provided the stochastic conduction paths. In this research, the Si interfusion can effectively localize the filament conduction path in WOX resistance switching layer because the tungsten filament path is limited by SiOX in the WSiOX film during the forming process. [ABSTRACT FROM AUTHOR]

Published

2012

6. Reducing operation current of Ni-doped silicon oxide resistance random access memory by supercritical CO2 fluid treatment.

Author

Chang, Kuan-Chang, Tsai, Tsung-Ming, Chang, Ting-Chang, Syu, Yong-En, Wang, Chia-C., Chuang, Siang-Lan, Li, Cheng-Hua, Gan, Der-Shin, and Sze, Simon M.

Subjects

SILICON oxide films, SUPERCRITICAL carbon dioxide, PASSIVITY (Chemistry), SEMICONDUCTOR storage devices, ELECTRIC resistance, SEMICONDUCTOR doping, NICKEL

Abstract

In the study, we reduced the operation current of resistance random access memory (RRAM) by supercritical CO2 (SCCO2) fluids treatment. The power consumption and joule heating degradation of RRAM device can be improved greatly by SCCO2 treatment. The defect of nickel-doped silicon oxide (Ni:SiOx) was passivated effectively by the supercritical fluid technology. The current conduction of high resistant state in post-treated Ni:SiOx film was transferred to Schottky emission from Frenkel-Pool due to the passivation effect. Additionally, we can demonstrate the passivation mechanism of SCCO2 for Ni:SiOx by material analyses of x-ray photoelectron spectroscopy and Fourier transform infrared spectroscopy. [ABSTRACT FROM AUTHOR]

Published

2011

7. Electrical conduction mechanism of Zn:SiOx resistance random access memory with supercritical CO2 fluid process.

Author

Chang, Kuan-Chang, Tsai, Tsung-Ming, Zhang, Rui, Chang, Ting-Chang, Chen, Kai-Huang, Chen, Jung-Hui, Young, Tai-Fa, Lou, J. C., Chu, Tian-Jian, Shih, Chih-Cheng, Pan, Jhih-Hong, Su, Yu-Ting, Syu, Yong-En, Tung, Cheng-Wei, Chen, Min-Chen, Wu, Jia-Jie, Hu, Ying, and Sze, Simon M.

Subjects

RANDOM access memory, TEMPERATURE measurements, COMPUTER storage devices, LOW temperatures, PHYSICAL measurements

Abstract

In this study, the electrical conduction mechanism of Zn:SiOx resistance random access memory (RRAM) treated with supercritical CO2 fluid (SCCO2) process was investigated by low temperature measurement. The current of low resistance state for current-voltage curves in SCCO2-treated and untreated Zn:SiOx RRAM were measured and compared under a low temperature range from 100 K to 298 K. The electrical conduction mechanisms of hopping conduction and metal-like behaviors in SCCO2-treated and untreated Zn:SiOx RRAM were discussed, respectively. Finally, the electrical conduction mechanism was analyzed and verified by the chemical composition and bonding intensity of XPS analyses. [ABSTRACT FROM AUTHOR]

Published

2013

8. The effect of high/low permittivity in bilayer HfO2/BN resistance random access memory.

Author

Huang, Jen-Wei, Zhang, Rui, Chang, Ting-Chang, Tsai, Tsung-Ming, Chang, Kuan-Chang, Lou, J. C., Young, Tai-Fa, Chen, Jung-Hui, Chen, Hsin-Lu, Pan, Yin-Chih, Huang, Xuan, Zhang, Fengyan, Syu, Yong-En, and Sze, Simon M.

Subjects

RANDOM access memory, COMPUTER storage devices, ELECTROMAGNETIC fields, ELECTRIC fields, OHMIC resistance, OHMIC contacts, PERMITTIVITY

Abstract

This letter investigated the electrical characteristics of resistance random access memory (RRAM) with HfO2/BN bilayer structures. By adopting the high/low permittivity structure, we obtained the excellent device characteristics such as uniform distribution of switching voltage and more stable resistance switching properties of RRAM. The current conduction mechanism of low resistance state in the HfO2/BN device was transferred to space-charge-limited current conduction from Ohmic conduction owing to space electric effect concentrated by the high/low permittivity bilayer structures. The electric field in the bilayer can be verified by comsol simulation software. [ABSTRACT FROM AUTHOR]

Published

2013

9. Suppress temperature instability of InGaZnO thin film transistors by N2O plasma treatment, including thermal-induced hole trapping phenomenon under gate bias stress.

Author

Chang, Geng-Wei, Chang, Ting-Chang, Jhu, Jhe-Ciou, Tsai, Tsung-Ming, Syu, Yong-En, Chang, Kuan-Chang, Tai, Ya-Hsiang, Jian, Fu-Yen, and Hung, Ya-Chi

Subjects

THIN film transistors, LIGHT emitting diodes, PLASMA-enhanced chemical vapor deposition, ELECTRODES, HIGH temperatures

Abstract

An abnormal subthreshold leakage current is observed at high temperature, which causes a notable stretch-out phenomenon in amorphous InGaZnO thin film transistors (a-IGZO TFTs). This is due to trap-induced thermal-generated holes accumulating at the source region, which leads to barrier lowering on the source side and causes an apparent subthreshold leakage current. In order to obtain superior thermal stability performance of a-IGZO TFTs, conducting N2O plasma treatment on active layer was expected to avert defects generation during SiO2 deposition process. Reducing defects generation not only suppresses subthreshold current stretch-out phenomenon but also significantly improves the bias stress stability in a-IGZO TFTs at high temperature. [ABSTRACT FROM AUTHOR]

Published

2012

10. Characteristics of hafnium oxide resistance random access memory with different setting compliance current.

Author

Su, Yu-Ting, Chang, Kuan-Chang, Chang, Ting-Chang, Tsai, Tsung-Ming, Zhang, Rui, Lou, J. C., Chen, Jung-Hui, Young, Tai-Fa, Chen, Kai-Huang, Tseng, Bae-Heng, Shih, Chih-Cheng, Yang, Ya-Liang, Chen, Min-Chen, Chu, Tian-Jian, Pan, Chih-Hung, Syu, Yong-En, and Sze, Simon M.

Subjects

HAFNIUM oxide, RANDOM access memory, SURFACE scattering, RESISTANCE heating, ELECTRIC conductivity

Abstract

In this Letter, the characteristics of set process of hafnium oxide based resistance random access memory are investigated by different set processes with increasing compliance current. Through current fitting, carrier conduction mechanism of low resistance state changes from hopping to surface scattering and finally to ohmic conduction with the increase of setting compliance current. Experimental data of current-voltage measurement under successive increasing temperature confirms the conduction mechanism transition. A model of filament growth is eventually proposed in a way by merging discrete metal precipitates and electrical field simulation by comsol Multiphysics further clarifies the properties of filament growth process. [ABSTRACT FROM AUTHOR]

Published

2013

11. Hopping conduction distance dependent activation energy characteristics of Zn:SiO2 resistance random access memory devices.

Author

Chen, Kai-Huang, Zhang, Rui, Chang, Ting-Chang, Tsai, Tsung-Ming, Chang, Kuan-Chang, Lou, J. C., Young, Tai-Fa, Chen, Jung-Hui, Shih, Chih-Cheng, Tung, Cheng-Wei, Syu, Yong-En, and Sze, Simon M.

Subjects

HOPPING conduction, RANDOM access memory, ACTIVATION energy, ARRHENIUS equation, NONVOLATILE random-access memory, INTEGRATED circuits

Abstract

In this study, the hopping conduction distance variation of Zn:SiO2 resistance random access memory (RRAM) devices with different operating compliance currents was discussed and verified. To investigate and determine the hopping conduction distance dependent activation energy characteristics, the Arrhenius plot of low resistance state of Zn:SiO2 RRAM devices was applied, from which we proposed carrier conduction model. With the increase of current compliance, more metal ions would accumulate to form precipitates with larger diameter, which in turn resulted in the shortening of hopping distance. Because of shorter hopping distance, activation energy for carrier hopping would decrease. [ABSTRACT FROM AUTHOR]

Published

2013