Focused ion beam milling of nanocavities in single colloidal particles and self-assembled opals

Leon A Woldering; A M (Bert) Otter; Bart H Husken

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Focused ion beam milling of nanocavities in single colloidal particles and self-assembled opals

机译：单个胶体颗粒和自组装蛋白石中纳米腔的聚焦离子束铣削

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We present a new method of realizing single nanocavities in individual colloidal particles on the surface of silicon dioxide artificial opals using a focused ion beam milling technique. We show that both the radius and the position of the nanocavity can be controlled with nanometre precision, to radii as small as 40 nm. The relation between the defect size and the milling time has been established. We confirmed that milling not only occurs on the surface of the spheres, but into and through them as well. We also show that an array of nanocavities can be fashioned. Structurally modified colloids have interesting potential applications in nanolithography, as well as in chemical sensing and solar cells, and as photonic crystal cavities.

机译：我们提出了一种新的方法，通过使用聚焦离子束铣削技术在二氧化硅人造蛋白石表面的单个胶体颗粒中实现单个纳米腔。我们表明，纳米腔的半径和位置都可以以纳米精度控制，半径可小至40 nm。缺陷尺寸和铣削时间之间的关系已经建立。我们确认，铣削不仅发生在球体的表面上，而且还发生在球体的内部以及穿过球体的表面。我们还表明，可以形成一系列纳米腔。结构修饰的胶体在纳米光刻，化学传感和太阳能电池以及光子晶体腔中具有有趣的潜在应用。

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《Nanotechnology》 |2006年第23期|共5页
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Leon A Woldering; A M (Bert) Otter; Bart H Husken;
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1. Zn1−xCdxO纳米颗粒中的自组装花状微结构 [J] . R.SANTHI, C.SHANTHI, M.SATHYA, 中国有色金属学报（英文版） . 2017,第009期
2. Focused ion beam milling of nanocavities in single colloidal particles and self-assembled opals [J] . Leon A Woldering, A M (Bert) Otter, Bart H Husken Nanotechnology . 2006,第23期

机译：单个胶体颗粒和自组装蛋白石中纳米腔的聚焦离子束铣削
3. Focused ion beam milling of self-assembled magnetic superstructures: an approach to fabricate nanoporous materials with tunable porosity [J] . Hakonsen Verner, Singh Gurvinder, He Jianying, Materials Horizons . 2018,第6期

机译：自组装磁性上部结构的聚焦离子束铣削：用可调谐孔隙造成纳米多孔材料的方法
4. HRTEM structural characterization of platinum nanoparticles loaded on carbon black particles using focused ion beam milling [J] . Miyazawa Kunichi, Shimomura Shuichi, Yoshitake Masaru, Materials Letters . 2019,第FEBa15期

机译：聚焦离子束铣削炭黑颗粒上负载的铂纳米颗粒的HRTEM结构表征
5. Ordered Arrays of Colloidal Gold Nanoparticles Fabricated by Focused Ion Beam Techniques [C] . Todd W. Simpson, Ian V. Mitchell Materials Research Society Symposium on Focused Ion Beams for Analysis and Processing . 2006

机译：通过聚焦离子束技术制造的胶体金纳米粒子的有序阵列
6. Charged colloidal particles in nonpolar solvents and self-assembled colloidal model systems. [D] . Hsu, Ming F. 2004

机译：非极性溶剂中的带电胶体颗粒和自组装胶体模型系统。
7. Cross-sectional analysis of W-cored Ni nanoparticle via focused ion beam milling with impregnation [O] . Saeeun Jeong, Hyunwoong Na, Gwangyeob Lee, 2014

机译：含浸聚焦离子束铣削W核Ni纳米颗粒的截面分析
8. Focused ion beam milling of self-assembled magnetic superstructures: an approach to fabricate nanoporous materials with tunable porosity [O] . Verner Håkonsen, Gurvinder Singh, Jianying He, 2018

机译：自组装磁性上部结构的聚焦离子束铣削：用可调孔隙率制造纳米多孔材料的方法
9. Simulation of Single Particle Upsets in GaAs Memories Using Focused Electron Beam Pulses. [R] . Flesner, L. D. 1990

机译：用聚焦电子束脉冲模拟Gaas存储器中的单粒子紊乱。

Focused ion beam milling of nanocavities in single colloidal particles and self-assembled opals

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