Analysis of Cycling Induced Interface Degradation In Si Nanocrystal Memory Devices

机译：Si纳米晶体存储器件中循环诱导的界面降解的分析

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This work has investigated the interface degradation of Si-nanocrystal memory devices under Fowler-Nordheim program/erase cycling. The evolution of the high-frequency capacitance-voltage curves pointed out that the mean density of interface traps had an unsymmetrical distribution around the surface intrinsic Fermi level (E_(is)) and the acceptor-type interface traps generated much faster than the donor-type ones during the cycling stress. It was further supported by the charge pumping measurement under several stress conditions. The energy distribution of the interface traps near E_(is) had a clear step-like shape with a higher density of acceptor-type interface traps. The results show that the generation of acceptor-type interface traps played a dominant role in the interface degradation.

机译：这项工作已调查了Fowler-Nordheim程序/擦除循环下Si纳米晶体存储器件的界面退化。高频电容-电压曲线的演变表明，界面陷阱的平均密度在表面固有费米能级（E_（is））周围具有不对称分布，并且受主型界面陷阱的生成速度远快于施主-在循环压力下键入一个。在几个应力条件下的电荷泵测量进一步支持了这一点。 E_（is）附近的界面陷阱的能量分布具有清晰的阶梯状形状，具有更高密度的受体型界面陷阱。结果表明，受体型界面陷阱的产生在界面降解中起主要作用。

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来源
《Dielectrics for nanosystems 5: materials science, processing, reliability, and manufacturing -and- tutorials in nanotechnology: more than moore - beyond CMOS emerging materials and devices.》|2012年|p.311-316|共6页
会议地点 Seattle WA(US);Seattle WA(US)
作者
Dandan Jiang; Manhong Zhang; Zongliang Huo; Zhong Sun; Yong Wang; Bo Zhang; Junning Chen; Ming Liu;
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作者单位

Institute of Microelectronics, Chinese Academy of Sciences, Beijing 100029, China,School of Electron. And Inf. Engineering, Anhui University, Hefei 230039, China;

Institute of Microelectronics, Chinese Academy of Sciences, Beijing 100029, China;

Institute of Microelectronics, Chinese Academy of Sciences, Beijing 100029, China;

Institute of Microelectronics, Chinese Academy of Sciences, Beijing 100029, China;

Institute of Microelectronics, Chinese Academy of Sciences, Beijing 100029, China;

Grace Semiconductor Manufacturing Corporation, Shanghai, 201203, China;

School of Electron. And Inf. Engineering, Anhui University, Hefei 230039, China;

Institute of Microelectronics, Chinese Academy of Sciences, Beijing 100029, China;

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原文格式 PDF
正文语种 eng
中图分类材料;材料;
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专利

1. Cycling-Induced Peak-Like Interface State Generation in Si-Nanocrystal Memory Devices [J] . Jiang D., Zhang M., Huo Z., Electron Device Letters, IEEE . 2012,第12期

机译：Si纳米晶体存储器件中循环诱导的峰状界面状态生成
2. A study of cycling induced degradation mechanisms in Si nanocrystal memory devices [J] . Jiang D., Zhang M., Huo Z., Nanotechnology . 2011,第25期

机译：硅纳米晶存储器件中循环诱导降解机理的研究
3. Analysis of trap generation during programming/erasing cycling in silicon nanocrystal memory devices [J] . Xiaonan Yang, Yong Wang, Manhong Zhan, Semiconductor science and technology . 2011,第4期

机译：硅纳米晶体存储器件编程/擦除循环过程中陷阱产生的分析
4. Analysis of Cycling Induced Interface Degradation In Si Nanocrystal Memory Devices [C] . Dandan Jiang, Manhong Zhang, Zongliang Huo, Meeting of the Electrochemical Society . 2012

机译：Si纳米晶体存储器件循环诱导界面劣化分析
5. E-field induced resistive switch in metal/praseodymium calcium manganite interfaces: A model for future nonvolatile memory devices. [D] . Das, Nilanjan. 2010

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6. Resistive switching memory performance in oxide hetero-nanocrystals with well-controlled interfaces [O] . Takafumi Ishibe, Yoshiki Maeda, Tsukasa Terada, 2020

机译：具有良好控制的界面的氧化物杂纳米晶体的电阻开关存储性能
7. Analysis of Cycling Induced Interface Degradation in Si Nanocrystal Memory Devices [O] . An Jianga, Manhong Zhanga, Zongliang Huoa, 2016

机译：si纳米晶体存储器件中循环诱导界面退化的分析

Analysis of Cycling Induced Interface Degradation In Si Nanocrystal Memory Devices

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