Processing issues in silicon nanocrystal manufacturing by ultra-low-energy ion-beam-synthesis for non-volatile memory applications

P. Normand; P. Dimitrakis; E. Kapetanakis; D. Skarlatos; K. Beltsios; D. Tsoukalas; C. Bonafos; H. Coffin; G. Benassayag; A. Claverie; V. Soncini; A. Agarwal; Ch. Sohl; M. Ameen

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Processing issues in silicon nanocrystal manufacturing by ultra-low-energy ion-beam-synthesis for non-volatile memory applications

机译：用于非易失性存储应用的超低能离子束合成在硅纳米晶体制造中的处理问题

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Recent fabrication issues encountered during the synthesis of silicon nanocrystals in thin SiO_2 films by the technique of ultra-low energy ion implantation and subsequent thermal treatment (ULE-IBS) are presented. The effects of charge neutralization of the implanted species, energy contamination and post-implantation cleaning process on the electrical and structural properties of the processed oxides are described, with emphasis upon the technological options to control them. While much research is still required for industrial exploitation of ULE-IBS in the fabrication of competitive and reproducible memory structures, promising results for prototype devices aiming at low-voltage non-volatile memory applications have been obtained and are here reported.

机译：提出了通过超低能离子注入和后续热处理（ULE-IBS）技术在SiO_2薄膜中合成硅纳米晶体时遇到的最新制造问题。描述了注入物质的电荷中和，能量污染和注入后清洗工艺对所加工氧化物的电学和结构性质的影响，重点是控制它们的技术选择。尽管在竞争性和可复制性存储器结构的制造中仍需要对ULE-IBS的工业开发进行大量研究，但针对低压非易失性存储器应用的原型设备已经获得了可喜的成果，并在此进行了报道。

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来源
《Microelectronic Engineering》 |2004年第6期|p.730-735|共6页
作者
P. Normand; P. Dimitrakis; E. Kapetanakis; D. Skarlatos; K. Beltsios; D. Tsoukalas; C. Bonafos; H. Coffin; G. Benassayag; A. Claverie; V. Soncini; A. Agarwal; Ch. Sohl; M. Ameen;
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作者单位

IMEL NCSR Demokritos, 15310 Aghia Paraskevi, Greece;

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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
中图分类微电子学、集成电路（IC）;
关键词
silicon nanocrystals; ion beam synthesis; silicon implantation; nanocrystal memory; non-volatile memory;

机译：硅纳米晶体;离子束合成;硅注入;纳米晶体存储器;非易失性存储器;

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专利

1. Nanocrystals manufacturing by ultra-low-energy ion-beam-synthesis for non-volatile memory applications [J] . P. Normand, E. Kapetanakis, P. Dimitrakis, Nuclear Instruments & Methods in Physics Research. B, Beam Interactions with Materials and Atoms . 2004,第Feb期

机译：通过超低能离子束合成技术制造用于非易失性存储器的纳米晶体
2. Ultra-low-energy ion-beam-synthesis of Ge nanocrystals in thin ALD Al_2O_3 layers for memory applications [J] . P. Dimitrakis, A. Mouti, C. Bonafos, Microelectronic Engineering . 2009,第7a9期

机译：用于存储器应用的ALD Al_2O_3薄层中Ge纳米晶体的超低能离子束合成
3. Si nanocrystals by ultra-low-energy ion beam-synthesis for non-volatile memory applications [J] . C. Bonafos, H. Coffin, S. Schamm, Solid-State Electronics . 2005,第11期

机译：通过超低能离子束合成制备的硅纳米晶体，用于非易失性存储应用
4. High density silicon nanocrystal embedded in sin prepared by low energy (<500eV) SiH/sub 4/ plasma immersion ion implantation for non-volatile memory applications [C] . Sangmoo Choi, Hyejung Choi, Tae-Wook Kim, Electron Devices Meeting, 2005. IEDM Technical Digest. IEEE International . 2005

机译：通过低能量（<500eV）SiH / sub 4 /等离子体浸没离子注入制备的高密度硅纳米晶嵌入正弦波，用于非易失性存储应用
5. Physics based modeling of the charging dynamics in silicon nanocrystal non-volatile flash memory cell [D] . Singaraju Venkata Sai, Pavan Kumar 2007

机译：基于物理的硅纳米晶非易失性闪存单元充电动力学建模
6. Nanocrystal-Embedded-Insulator (NEI) Ferroelectric FETs for Negative Capacitance Device and Non-Volatile Memory Applications [O] . Yue Peng, Genquan Han, Wenwu Xiao, 2019

机译：用于负电容器件和非易失性存储器应用的纳米晶体嵌入式绝缘体（NEI）铁电FET
7. High Total Dose Tolerance of Prototype Silicon Nanocrystal Non-Volatile Memory Cells [O] . Mihail P. Petkov, L. Douglas Bell, Harry A. Atwater 2014

机译：原型硅纳米晶体非易失性存储器单元的高总剂量容差

Processing issues in silicon nanocrystal manufacturing by ultra-low-energy ion-beam-synthesis for non-volatile memory applications

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