Impacts of Poly-Si Nanowire Shape on Gate-All-Around Flash Memory With Hybrid Trap Layer

Chen H.-B.; Wu Y.-C.; Yang C.-K.; Chen L.-C.; Chiang J.-H.; Chang C.-Y.

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Impacts of Poly-Si Nanowire Shape on Gate-All-Around Flash Memory With Hybrid Trap Layer

机译：多晶硅纳米线形状对具有混合陷阱层的全能门闪存的影响

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摘要

This letter demonstrates the shape effect of suspended poly-Si nanowires (NWs) on gate-all-around TFT Flash memory. The NWs are bent into a bimodal shape by process-induced strain. The proposed dual-gate (DG) and single-gate (SG) electrodes are located on the twin peaks and single valley of the bimodal shape of the NWs. The DG structure has better program/erase characteristics and reliability than the SG structure owing to the impact of the bent NWs on the dielectric strength of tunnel oxide. Moreover, incorporation of the hybrid trap layer in the DG device yields a long retention time, with only 17% charge loss over ten years.

机译：这封信证明了悬浮的多晶硅纳米线（NW）在全能TFT闪存上的形状效果。 NW被过程引起的应变弯曲成双峰形状。提出的双栅极（DG）和单栅极（SG）电极位于NW的双峰形的双峰和单谷上。由于弯曲的NW对隧道氧化物的介电强度的影响，DG结构比SG结构具有更好的编程/擦除特性和可靠性。此外，在DG器件中并入混合陷阱层会产生较长的保留时间，十年内的电荷损失仅为17％。

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来源
《Electron Device Letters, IEEE》 |2011年第10期|p.1382-1384|共3页
作者
Chen H.-B.; Wu Y.-C.; Yang C.-K.; Chen L.-C.; Chiang J.-H.; Chang C.-Y.;
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作者单位

Department of Engineering and System Science, National Chiao Tung University, Hsinchu, Taiwan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Flash memory; gate-all-around (GAA); nanowire (NW); thin-film transistor (TFT);

机译：闪存;全方位栅极（GAA）;纳米线（NW）;薄膜晶体管（TFT）;

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专利

1. Impacts of Nanocrystal Location on the Operation of Trap-Layer-Engineered Poly-Si Nanowired Gate-All-Around SONOS Memory Devices [J] . Luo C.-W., Lin H.-C., Lee K.-H., Electron Devices, IEEE Transactions on . 2011,第7期

机译：纳米晶体位置对陷阱层工程多晶硅纳米线全能SONOS存储器器件操作的影响
2. A Novel Charge-Trapping-Type Memory With Gate-All-Around Poly-Si Nanowire and HfAlO Trapping Layer [J] . Lee K.-H., Lin H.-C., Huang T.-Y. Electron Device Letters, IEEE . 2013,第3期

机译：具有全方位栅多晶硅纳米线和HfAlO陷阱层的新型电荷陷阱型存储器
3. SiO_2 tunneling and Si_3N_4/HfO_2 trapping layers formed with low temperature processes on gate-all-around junctionless charge-trapping flash memory devices [J] . Hsin-Kai Fang, Kuei-Shu Chang-Liao, Chia-Hsin Cheng, Microelectronics & Reliability . 2018,第DECa期

机译：SiO_2隧穿和Si_3N_4 / HfO_2俘获层是通过低温工艺在全栅无结电荷俘获闪存器件上形成的
4. Impacts of Poly-Si Channel on Cell Variations in Vertical Scaled Charge-trap (CT) 3D NAND Flash Memory [C] . Fei Wang, Xuepeng Zhan, Yuan Li, IEEE International Conference on Solid-State and Integrated Circuit Technology . 2020

机译：多Si通道对垂直缩放电荷 - 陷阱（CT）3D NAND闪存的细胞变化的影响
5. Charge Trapping Flash Memory With High-k Dielectrics. [D] . Eun, Dong Seog. 2011

机译：高k电介质的电荷陷阱闪存。
6. Low-temperature poly-Si nanowire junctionless devices with gate-all-around TiN/Al2O3 stack structure using an implant-free technique [O] . Chun-Jung Su, Tzu-I Tsai, Horng-Chih Lin, 2012

机译：采用无注入技术的全栅TiN / Al2O3堆叠结构的低温多晶硅纳米线无结器件
7. Gate-All-Around Single-Crystal-Like Poly-Si Nanowire TFTs With a Steep-Subthreshold Slope [O] . Tung-yu Liu, Shen-chuan Lo, Jeng-tzong Sheu 2016

机译：具有陡峭亚阈值斜率的全栅极单晶体多晶硅纳米线TFT

Impacts of Poly-Si Nanowire Shape on Gate-All-Around Flash Memory With Hybrid Trap Layer

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