聚焦电子束诱导碳沉积实现纳米线表面可控修饰
Controllable surface modification of nanowires by focused-electron-beam-induced deposition of carbon
查看参考文献16篇
|
文摘
|
作为一种典型的准一维纳米材料,纳米线具有纳米材料所特有的小尺寸效应或纳米曲率效应,经表面修饰的纳米线一般具有不同于普通纳米线的特殊性质.利用实验室发展成熟的透射电子显微镜原位辐照技术,以透射电子显微镜中残留的有机气体分子为前驱体,成功地在纳米线表面可控沉积了非晶碳纳米颗粒和碳纳米棒,以及局域凸起的非晶碳膜并形成局域肿大的同轴结构.实验结果表明,该方法能够方便地通过控制聚焦电子束的束斑尺寸,辐照方式,辐照时间以及辐照位置等参数,在纳米线表面精确可控地沉积各种非晶碳纳米结构,从而实现纳米线的表面可控修饰.对聚焦电子束辐照下基于纳米线的各种碳纳米结构的可能沉积机理作了进一步地探索,并针对透射电子显微镜中如何减少因电子束辐照诱导非晶碳沉积造成的样品污染提出了几点建议 |
|
其他语种文摘
|
Surface-modified nanowires generally own some additional properties, and thus in this paper, the authors particularly studied the surface modification of nanowires via irradiation of focused electron beam in a Tecnai F-30 field emission transmission electron microscope (TEM).It was observed that controllable deposition of all kinds of amorphous carbon nanostructures, such as carbon particles, carbon rods and carbon films with local bulging, could be got on the surface of nanowires after intentional irradiation. In details, the controllable deposition of carbon nanostructures could be easily and precisely controlled by changing of some irradiation parameters such as beam spot diameter, irradiation manner, irradiation time and irradiation position. The possible deposition mechanisms of carbon nanostructures on the wire surface as induced by irradiation of focused electron beam in TEM were further discussed. In addition, some suggestions were also proposed on reducing of specimen pollution caused by undesired deposition of amorphous carbon materials during the irradiation |
|
来源
|
科学通报
,2010,55(13):1288-1293 【核心库】
|
|
关键词
|
透射电子显微镜
;
聚焦电子束诱导沉积
;
纳米线
;
表面修饰
;
碳纳米结构
|
|
地址
|
1.
厦门大学物理系, 厦门, 361005
2.
厦门大学物理系, 中国科学院半导体材料重点实验室, 厦门, 361005
3.
中国科学院半导体研究所, 中国科学院半导体材料重点实验室, 北京, 100083
|
|
语种
|
中文 |
|
文献类型
|
研究性论文 |
|
ISSN
|
0023-074X |
|
学科
|
一般工业技术 |
|
基金
|
国家科技计划国际科技合作与交流专项
;
国家973计划
;
国家自然科学基金
;
中国-澳大利亚科技合作特别基金
;
国家教育部科学技术研究重点项目
|
|
文献收藏号
|
CSCD:4068383
|
参考文献 共
16
共1页
|
|
1.
Appel D. Wired for success.
Nature,2002,419:553-555
|
被引
1
次
|
|
|
|
|
2.
苏江滨.
原位透射电镜电子束辐照诱导SiOx纳米线结构不稳定性和纳米加工研究.硕士学位论文,2008
|
被引
2
次
|
|
|
|
|
3.
Xu S Y. Nanometer-scale modification and welding of silicon and metallic nanowires with a high-intensity electron beam.
Small,2005,1:1221-1229
|
被引
10
次
|
|
|
|
|
4.
Remeika M. Sub-10 nanometer fabrication:molecular templating, electron-beam sculpting and crystallization of metallic nanowires.
Nanotechnology,2005,16:1172-1176
|
被引
4
次
|
|
|
|
|
5.
Kondo Y. Gold nanobridge stabilized by surface structure.
Phys Rev Lett,1997,79:3455-3458
|
被引
16
次
|
|
|
|
|
6.
许胜勇. 电子束纳米焊接与纳米切割.
电子显微学报,2007,26:563-569
|
被引
4
次
|
|
|
|
|
7.
王鸣生. 电子束致沉积手控生长碳纳米线.
电子显微学报,2005,24:11-16
|
被引
2
次
|
|
|
|
|
8.
Liu Z Q. Features of self-supporting tungsten nanowire deposited with high-energy electrons.
J Appl Phys,2004,96:619-623
|
被引
5
次
|
|
|
|
|
9.
Mitsuishi K. Electron-beam-induced deposition using a subnanometer-sized probe of high-energy electrons.
Appl Phys Lett,2003,83:2064-2066
|
被引
6
次
|
|
|
|
|
10.
Cho S O. Controlled synthesis of abundantly branched, hierarchical nanotrees by electron irradiation of polymers.
Adv Mater,2006,18:60-65
|
被引
4
次
|
|
|
|
|
11.
Furuya K. Nanofabrication by advanced electron microscopy using intense and focused beam.
Sci Technol Adv Matter,2008,9:014110
|
被引
1
次
|
|
|
|
|
12.
Wang Y G. Synthesis and characterization of hydrocarbon coating prepared by in situ electron beam deposition on ZnSe nanowire.
J Phys Chem C,2008,112:7572-7578
|
被引
3
次
|
|
|
|
|
13.
Koops H W P. Characterization and application of materials grown by electron-beam-induced deposition.
Jpn J Appl Phys,1994,33:7099-7107
|
被引
2
次
|
|
|
|
|
14.
Zhu X F. Nanoinstabilities as revealed by shrinkage of nanocavities in silicon during irradiation(invited review).
Int J Nanotechnology,2006,3:492-516
|
被引
7
次
|
|
|
|
|
15.
Zhu X F. Evidence of an antisymmetry relation between a nanocavity and a nanoparticle:A novel nanosize effect.
J Phys:Condens Matter,2003,15:L253-L261
|
被引
7
次
|
|
|
|
|
16.
Zhu X F. Evidence of Ultrafast Energy Exchange-Induced Soft Mode of Phonons and Lattice Instability: a Nanotime Effect.
Chin Phys Lett,2005,22:737-740
|
被引
8
次
|
|
|
|
|
了解气象卫星更多信息,请访问