Formation of germanium nanocrystals embedded in silicon-oxygen-nitride layer

Chun-Hao Tu; Ting-Chang Chang; Po-Tsun Liu; Hsin-Chou Liu; Chia-Chou Tsai; Li-Ting Chang; Tseung-Yuan Tseng; Simon M. Sze; Chun-Yen Chang

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Formation of germanium nanocrystals embedded in silicon-oxygen-nitride layer

机译：嵌入氮化硅-氧-氮层中的锗纳米晶体的形成

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The formation of germanium nanocrystals embedded in silicon-oxygen nitride with distributed charge storage elements is proposed in this work. A large memory window is observed due to isolated Ge nanocrystals in the SiON gate stack layer. The Ge nanocrystals were nucleated after high temperature oxidized SiGeN layer. The nonvolatile memory with the Ge nanocrystals embedded in SiON stack layer exhibits 4 V threshold voltage shift under 10 V write operation. Also, the manufacture technology using the sequent high-temperature oxidation of the a-Si layer acting as the blocking oxide is proposed to enhance the performance of nonvolatile memory devices.

机译：这项工作提出了利用分布的电荷存储元件形成嵌入在氮化硅-氧氮化物中的锗纳米晶体的方法。由于在SiON栅堆叠层中隔离的Ge纳米晶体，观察到大的存储窗口。在高温氧化的SiGeN层之后，使Ge纳米晶体成核。在10 V写入操作下，具有嵌入SiON堆叠层的Ge纳米晶体的非易失性存储器具有4 V阈值电压偏移。而且，提出了使用随后的高温氧化a-Si层作为阻挡氧化物的制造技术，以提高非易失性存储器件的性能。

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来源
《Applied Physics Letters》 |2006年第5期|p.052112.1-052112.3|共3页
作者
Chun-Hao Tu; Ting-Chang Chang; Po-Tsun Liu; Hsin-Chou Liu; Chia-Chou Tsai; Li-Ting Chang; Tseung-Yuan Tseng; Simon M. Sze; Chun-Yen Chang;
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作者单位

Institute of Electronics, National Chiao Tung University, Hsin-Chu, Taiwan 300, Republic of China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类应用物理学;计量学;
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专利

1. A Fabrication of Germanium Nanocrystal Embedded in Silicon-Oxygen-Nitride Layer [J] . C.-H. Tu, T.-C. Chang, P.-T. Liu Electrochemical and solid-state letters . 2006,第12期

机译：嵌入氮氧化硅层中的锗纳米晶的制备
2. Formation of germanium nanocrystals by rapid thermal oxidizing SiGeO layer for nonvolatile memory application [J] . Chen WR, Chang TC, Liu PT, Surface & Coatings Technology . 2007,第4a7期

机译：通过快速热氧化SiGeO层形成非易失性存储应用中的锗纳米晶体
3. Minimization of germanium penetration, nanocrystal formation, charge storage, and retention in a trilayer memory structure with silicon nitride/hafnium dioxide stack as the tunnel dielectric [J] . T. H. Ng, W. K. Chim, W. K. Choi, Applied Physics Letters . 2004,第22期

机译：使用氮化硅/二氧化ha堆叠作为隧道电介质，将锗的渗透，纳米晶体的形成，电荷存储以及在三层存储结构中的保留最小化
4. Layer-thickness-dependent formation of Si-nanocrystals embedded in amorphous Si/SiO_2 multilayersformation of Si-nanocrystals embedded inamorphous Si/SiO_2 multilayers [C] . Keyong Chen, Xue Feng, Yidong Huang Display, solid-state lighting, photovoltaics, and optoelectronics in energy II . 2010

机译：非晶硅/ SiO_2多层膜中嵌入的硅纳米晶体的层厚依赖性形成非晶硅/ SiO_2多层膜中嵌入的硅纳米晶体的形成
5. Synthesis and characterization of embedded germanium nanocrystals [D] . Xu, Qing 2006

机译：嵌入式锗纳米晶的合成与表征
6. Observing the morphology of single-layered embedded silicon nanocrystals by using temperature-stable TEM membranes [O] . Sebastian Gutsch, Daniel Hiller, Jan Laube, 2015

机译：使用温度稳定的TEM膜观察单层嵌入式硅纳米晶体的形貌
7. Structural and electrical properties of silicon dioxide layers with embedded germanium nanocrystals grown by molecular beam epitaxy [O] . A. Kanjilal, J. Lundsgaard Hansen, P. Gaiduk, 2003

机译：分子束外延生长嵌入式锗纳米晶体二氧化硅层的结构和电性能

Formation of germanium nanocrystals embedded in silicon-oxygen-nitride layer

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