Shock-Wave Synthesis of Nanoparticles during Ion Sputtering

机译：离子溅射过程中冲击波合成纳米颗粒

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We report electron microscopy studies of nanoparticles ( 500 ≤ n ≤ 10~4, where n is the number of atoms in a given cluster) that are sputtered from the surface by high-energy ion impacts. Measurements of the sizes of these clusters yielded an inverse power-law distribution with an exponent of -2 that is independent of irradiating ion species and total sputtering yield. This inverse-square dependence indicates that these nanoclusters are produced when shock waves, generated by sub-surface displacement cascades, impact and ablate the surface. Such nanoparticles consist of simple fragments of the original surface, i.e., ones that have not undergone any large thermal excursion. As discussed below, this "ion ablation" technique should therefore be useful for synthesizing nanoparticles of a wide variety of alloy compositions and phases.

机译：我们报告了通过高能离子撞击从表面溅出的纳米粒子（500≤n≤10〜4，其中n是给定簇中的原子数）的电子显微镜研究。对这些团簇的尺寸进行测量，得出幂律呈反比分布，其指数为-2，而与辐照离子种类和总溅射产率无关。这种平方反比关系表明，这些纳米团簇是由地下位移级联产生的冲击波冲击并烧蚀表面时产生的。这样的纳米颗粒由原始表面的简单片段组成，即没有经历任何大的热偏移的片段。如下所述，该“离子烧蚀”技术因此对于合成具有多种合金组成和相的纳米颗粒应该是有用的。

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《Symposium on Nanoparticulate Materials, Nov 26-29, 2001, Boston, Massachusetts, U.S.A.》|2001年|p.181-186|共6页
会议地点 Boston MA(US);Boston MA(US)
作者
L. E. Rehn; R. C. Birtcher; S. E. Donnelly; P. M. Baldo; L. Funk;
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Materials Science Division, Argonne National Laboratory Argonne, IL 60439, U.S.A.;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
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1. Shock-wave production of nanoparticles during high-energy ion sputtering [J] . L.E. Rehn, R.C. Birtcher, P.M. Baldo, Nuclear Instruments & Methods in Physics Research. B, Beam Interactions with Materials and Atoms . 2003,第Dec期

机译：高能离子溅射过程中纳米粒子的冲击波产生
2. Sputtering-deposition of Ru nanoparticles onto Al2O3 modified with imidazolium ionic liquids: synthesis, characterisation and catalysis [J] . Foppa Lucas, Luza Leandro, Gual Aitor, Dalton transactions: An international journal of inorganic chemistry . 2015,第6期

机译：Ru纳米粒子在咪唑鎓离子液体改性的Al2O3上的溅射沉积：合成，表征和催化
3. Topography effects and monatomic ion sputtering of undulating surfaces, particles and large nanoparticles: Sputtering yields, effective sputter rates and topography evolution [J] . Seah M.P. Surface and Interface Analysis: SIA: An International Journal Devoted to the Development and Application of Techniques for the Analysis of Surfaces, Interfaces and Thin Films . 2012,第2期

机译：起伏表面，颗粒和大纳米颗粒的形貌效应和单原子离子溅射：溅射产量，有效溅射速率和形貌演变
4. Shock-wave synthesis of nanoparticles during ion sputtering [C] . L.E.Rehn, R.C.Birtcher, S.E.Donnelly, Materials Research Society Symposium . 2002

机译：离子溅射期间纳米颗粒的冲击波合成
5. Aerosol synthesis and surface functionalization of luminescent silicon nanoparticles, aerosol synthesis of magnetic nanoparticles, and kinetic Monte Carlo simulation of silicon nanoparticle nucleation. [D] . Li, Xuegeng. 2004

机译：发光硅纳米粒子的气溶胶合成和表面功能化，磁性纳米粒子的气溶胶合成以及硅纳米粒子成核的动力学蒙特卡罗模拟。
6. On the Effects of Diluted and Mixed Ionic Liquids as Liquid Substrates for the Sputter Synthesis of Nanoparticles [O] . Michael Meischein, Marvin Fork, Alfred Ludwig 2020

机译：稀释和混合离子液体作为液体基质对纳米粒子溅射合成的影响
7. Shock-Wave Synthesis of Nanoparticles During Ion Sputtering [O] . L. E. Rehn, R. C. Birtcher, S. E. Donnelly, 2001

机译：离子溅射期间纳米颗粒的冲击波合成
8. Shock-wave synthesis of nanoparticles during ion sputtering [R] . Rehn, L. E., Birtcher, R. C., Donnelly, S. E., 2001

机译：离子溅射过程中纳米粒子的冲击波合成

Shock-Wave Synthesis of Nanoparticles during Ion Sputtering

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