Achieving independent control of core diameter and carbon shell thickness in Pd-C core-shell nanoparticles by gas phase synthesis

Singh Vinod; Mehta B. R.; Sengar Saurabh K.; Karakulina Olesia M.; Hadermann Joke; Kaushal Akshey

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Achieving independent control of core diameter and carbon shell thickness in Pd-C core-shell nanoparticles by gas phase synthesis

机译：通过气相合成实现PD-C核心壳纳米粒子中的芯直径和碳壳厚度的独立控制

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摘要

Pd-C core-shell nanoparticles with independently controllable core size and shell thickness are grown by gas phase synthesis. First, the core size is selected by electrical mobility values of charged particles, and second, the shell thickness is controlled by the concentration of carbon precursor gas. The carbon shell grows by adsorption of carbon precursor gas molecules on the surface of nanoparticles, followed by sintering. The presence of a carbon shell on Pd nanoparticles is potentially important in hydrogen-related applications operating at high temperatures or in catalytic reactions in acidic/aqueous environments.

机译：具有可独立可控芯尺寸和壳厚度的Pd-C核壳纳米颗粒由气相合成生长。首先，通过带电粒子的电动迁移率值选择芯尺寸，第二，通过碳前体气体的浓度来控制壳厚度。碳壳通过在纳米颗粒表面上吸附碳前体气体分子，然后烧结而生长。在PD纳米粒子上存在碳壳在氢气相关的应用中可能是重要的，其在高温下或酸性/含水环境中的催化反应中操作。

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来源
《Nanotechnology》 |2017年第29期|共9页
作者
Singh Vinod; Mehta B. R.; Sengar Saurabh K.; Karakulina Olesia M.; Hadermann Joke; Kaushal Akshey;
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作者单位

Indian Inst Technol Dept Phys Thin Film Lab New Delhi 110016 India;

Indian Inst Technol Dept Phys Thin Film Lab New Delhi 110016 India;

Indian Inst Technol Dept Phys Thin Film Lab New Delhi 110016 India;

Univ Antwerp EMAT Groenenborgerlaan 171 B-2020 Antwerp Belgium;

Univ Antwerp EMAT Groenenborgerlaan 171 B-2020 Antwerp Belgium;

Indian Inst Technol Dept Phys Thin Film Lab New Delhi 110016 India;

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原文格式 PDF
正文语种 eng
中图分类特种结构材料;
关键词
gas phase synthesis; core-shell nanoparticles; controlled shell thickness; size selected Pd-C nanoparticles;

机译：气相合成;核 - 壳纳米粒子;受控壳体厚度;尺寸选择PD-C纳米粒子;

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专利

1. Achieving independent control of core diameter and carbon shell thickness in Pd-C core-shell nanoparticles by gas phase synthesis [J] . Singh Vinod, Mehta B. R., Sengar Saurabh K., Nanotechnology . 2017,第29期

机译：通过气相合成实现PD-C核心壳纳米粒子中的芯直径和碳壳厚度的独立控制
2. Synthesis and diameter control of vertically-aligned carbon nanotube growth from Langmuir-Blodgett films deposited Fe_3O_4@SiO_2 core-shell nanoparticles [J] . Masaaki Ohashi, Takehiro Sugawara, Kohei Kawasaki, Japanese journal of applied physics . 2014,第2S期

机译：由Langmuir-Blodgett薄膜沉积的Fe_3O_4 @ SiO_2核壳纳米粒子的合成和垂直取向的碳纳米管生长的直径控制
3. Control of the carbon shell thickness in Sn{sub}70Ge{sub}30@carbon core-shell nanoparticles using alkyl terminators: Its implication for high-capacity lithium battery anode materials [J] . Jaephil Cho Electrochimica Acta . 2008,第2期

机译：使用烷基终止剂控制Sn {sub} 70Ge {sub} 30 @碳核-壳纳米颗粒中碳壳的厚度：对高容量锂电池负极材料的意义
4. Tuning the magnetization dynamics of silica-coated Fe_3O_4 core-shell nanoparticles by shell thickness control [C] . K. Mohan Kant, K. Sethupathi, M. S. Ramachandra Rao Annual Conference on Magnetism and Magnetic Materials . 2008

机译：通过壳体厚度控制调节二氧化硅涂覆的Fe_3O_4核壳纳米粒子的磁化动力学
5. Gas phase synthesis of aluminum and core-shell nickel-iron oxide nanoparticles [D] . Pines, Daniel Corey 2009

机译：铝和核壳型镍铁氧化物纳米粒子的气相合成
6. Vitamin E-Loaded PLA- and PLGA-Based Core-Shell Nanoparticles: Synthesis Structure Optimization and Controlled Drug Release [O] . Norbert Varga, Árpád Turcsányi, Viktória Hornok, 2019

机译：维生素E负载的PLA和PLGA为基础的核壳纳米粒子：合成结构优化和控制药物释放。
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机译：维生素E加载PLA-和PLGA核心壳纳米粒子：合成，结构优化和控制药物释放

Achieving independent control of core diameter and carbon shell thickness in Pd-C core-shell nanoparticles by gas phase synthesis

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