Preparation of size controllable copper nanocrystals for nonvolatile memory applications

Preparation of size controllable copper nanocrystals for nonvolatile memory applications

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摘要 A method of fabricating Cu nanocrystals embedded in SiO2 dielectric film for nonvolatile memory applications by magnetron sputtering is introduced in this paper. The average size and distribution density of Cu nanocrystal grains are controlled by adjusting experimental parameters. The relationship between nanocrystal floating gate micro-structure and its charge storage capability is also discussed theoretically. A method of fabricating Cu nanocrystals embedded in SiO2 dielectric film for nonvolatile memory applications by magnetron sputtering is introduced in this paper. The average size and distribution density of Cu nanocrystal grains are controlled by adjusting experimental parameters. The relationship between nanocrystal floating gate micro-structure and its charge storage capability is also discussed theoretically.

作者王利孙红芳周惠华朱静

机构地区 Beijing National Center for Electron Microscopy

出处《Chinese Physics B》 SCIE EI CAS CSCD 2010年第10期593-596,共4页 中国物理B（英文版）

关键词 nanocrystal grain nonvolatile memory Coulomb blockade effect magnetron sputtering nanocrystal grain, nonvolatile memory, Coulomb blockade effect, magnetron sputtering

分类号 TB383.1 [一般工业技术—材料科学与工程]

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1Tiwari S, Rana F, Hanafi H, Hartstein A, Crabbe E F and Chan K 1996 Appl. Phys. Lett. 68 1377. 被引量：1
2Liu Z T, Lee C, Narayanan V, Pei G and Kan E C 2002 IEEE Trans. Electron Devices 49 1606. 被引量：1
3Lee C H, Meteer J, Narayanan V and Kan E C 2005 J. Electron. Mater. 34. 被引量：1
4Wang Q, Song Z T, Liu W L, Lin C L and Wang T H 2004 Appl. Surf. Sci. 230 8. 被引量：1
5Yang J S, Kim S I, Kim Y T, Cho W J and Park J H 2008 Microelectron. J. 39 1553. 被引量：1
6Kanoun M, Busseret C, Poncet A, Souifi A, Baron T and Gautier B 2006 Solid State Electron. 50 1310. 被引量：1
7Li X L, Feng S S and Chen G G 2008 Chin. Phys. B 17 1070. 被引量：1
8Eaglesham D J and Cerullo M 1990 Phys. Rev. Lett. 64 1943. 被引量：1
9Wang L, Sun H F, Zhou H H and Zhu J 2009 Mater. Sci. Forum 610-613 585. 被引量：1
10Lee J J, Harada Y, Pyun J W and Kwong D L 2005 Appl. Phys. Lett. 86 103505. 被引量：1

1羽冬.22nm存储器开关[J].半导体信息,2006,0(3):17-17.
2郭明秀.纳米晶体可能提高数据存储容量[J].激光与光电子学进展,2000,37(10):42-42.
3Baozhen An,Mingjie Li,Jialin Wang,Chaoxu Li.Shape/size controlling syntheses, properties and applications of two-dimensional noble metal nanocrystals[J].Frontiers of Chemical Science and Engineering,2016,10(3):360-382. 被引量：1
4WANG Li SUN HongFang ZHOU HuiHua ZHU Jing.Preparation of BST nanocrystals embedded in SiO_2 film by magnetron sputtering for nonvolatile memory applications[J].Chinese Science Bulletin,2011,56(11):1139-1141. 被引量：2
5蓝澜,苟鸿雁,丁士进,张卫.Low voltage program-erasable Pd-Al_2O_3-Si capacitors with Ru nanocrystals for nonvolatile memory application[J].Chinese Physics B,2013,22(11):532-535.
6毛平,张志刚,潘立阳,许军,陈培毅.Nonvolatile Memory Characteristics with Embedded High Density Ruthenium Nanocrystals[J].Chinese Physics Letters,2009,26(5):176-178.
7赵武玲,赵红坡.一种新颖的基于嵌入式纳米晶体flash技术的32位MCU[J].科技传播,2012,4(24):230-231.
8王兵.纳米铜导电墨水制备研究获新进展[J].功能材料信息,2011,8(2):44-45.
9LifeSize推出LifeSize Control 4．0多厂商视频网络管理解决方案[J].电信技术,2009(3):35-35.
10程文芳.摩托罗拉展示业界首个4Mb硅纳米晶体存储器[J].半导体信息,2003,0(5):41-41.

Chinese Physics B

2010年第10期

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Preparation of size controllable copper nanocrystals for nonvolatile memory applications

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