Fast growth of nanoparticles in a hollow cathode plasma through orbit motion limited ion collection

Pilch I.; Soderstrom D.; Hasan M.I.; Helmersson U.

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Fast growth of nanoparticles in a hollow cathode plasma through orbit motion limited ion collection

机译：通过轨道运动限制离子收集，纳米粒子在空心阴极等离子体中快速生长

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Plasma-based nanoparticle synthesis techniques are attractive in many respects but suffer from a major drawback—low productivity. We demonstrate a technique by which the growth rate of copper nanoparticles has been substantially increased by collection of copper ions. A growth rate as high as 470 nm/s was obtained as compared to a growth rate of less than 3 nm/s in the case of growth by neutrals. The increased trapping of copper is explained as orbital motion limited (OML) collection of ions. Experimentally obtained nanoparticle growth rates are in good agreement with theoretical estimates of the OML ion collection rates.

机译：基于等离子体的纳米颗粒合成技术在许多方面都具有吸引力，但存在一个主要缺点-生产率低。我们展示了一种技术，通过该技术，铜纳米粒子的生长速率已通过收集铜离子而大大提高。与通过中性物生长的情况下小于3nm / s的生长速度相比，获得了高达470nm / s的生长速度。铜的增加捕集被解释为离子的轨道运动受限（OML）收集。实验获得的纳米粒子生长速率与OML离子收集速率的理论估计值非常吻合。

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《Applied Physics Letters》 |2013年第19期|1-5|共5页
作者
Pilch I.; Soderstrom D.; Hasan M.I.; Helmersson U.;
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Plasma & Coatings Physics Division, IFM-Materials Physics, Linköping University, SE-581 83 Linköping, Sweden|c|;

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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);
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1. Fast growth of nanoparticles in a hollow cathode plasma through orbit motion limited ion collection [J] . I. Pilch, D. Soederstroem, M. I. Hasan, Applied Physics Letters . 2013,第19期

机译：通过轨道运动限制离子收集，纳米粒子在空心阴极等离子体中快速生长
2. Nanoparticle growth by collection of ions: orbital motion limited theory and collision-enhanced collection [J] . Pilch I., Caillault L., Minea T., Journal of Physics, D. Applied Physics: A Europhysics Journal . 2016,第39期

机译：通过收集离子来生长纳米粒子：轨道运动限制理论和碰撞增强收集
3. Low work-function thermionic emission and orbital-motion-limited ion collection at bare-tether cathodic contact [J] . Chen Xin, Sanmartin J. R. Physics of plasmas . 2015,第5aPta1期

机译：裸链阴极接触时低功函的热电子发射和轨道运动受限的离子收集
4. Effect of Substrate Temperature and Ga source Precursor on Growth and Material Properties of GaN Grown by Hollow Cathode Plasma Assisted Atomic Layer Deposition [C] . Ali Haider, Seda Kizir, Piter Deminskyi, IEEE International Conference on Electronics and Nanotechnology . 2016

机译：底物温度和GA源前体对空心阴极等离子体辅助原子层沉积生长和材料性能的影响
5. Plasma-Surface Interactions in Hollow Cathode Discharges for Electric Propulsion. [D] . Capece, Angela Maria. 2012

机译：空心阴极放电中的等离子-表面相互作用用于电推进。
6. Hollow ternary PtPdCu nanoparticles: a superior and durable cathodic electrocatalyst [O] . Xiao-Jing Liu, Chun-Hua Cui, Hui-Hui Li, 2015

机译：中空三元PtPdCu纳米粒子：优异且耐用的阴极电催化剂
7. Fast growth of nanoparticles in a hollow cathode plasma through orbit motion limited ion collection [O] . Pilch, Iris, Söderström, Daniel, Hasan, M I, 2013

机译：通过轨道运动限制离子收集，纳米粒子在空心阴极等离子体中快速生长

Fast growth of nanoparticles in a hollow cathode plasma through orbit motion limited ion collection

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