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Atomic-scale structural identification and evolution of Co-W-C ternary SWCNT catalytic nanoparticles: High-resolution STEM imaging on SiO2

机译：Co-W-C三元SWCNT催化纳米颗粒的原子尺度结构鉴定和演化：SiO2上的高分辨率STEM成像

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摘要

Recently, W-based catalysts have provided a promising route to synthesize single-walled carbon nanotubes (SWCNTs) with specific chirality, but the mechanism of the growth selectivity is vaguely understood. We propose a strategy to identify the atomic structure as well as the structure evolution of the Co-W-C ternary SWCNT catalyst. The key is to use a thin SiO2 film as the catalyst support and observation window. As the catalyst is uniformly prepared on this SiO2 film and directly used for the SWCNT synthesis, this method has an advantage over conventional methods: it creates an opportunity to obtain original, statistical, and dynamic understanding of the catalyst. As a technique, atomic-scale imaging directly on SiO2 serves as a powerful and versatile tool to investigate nanocrystals and high-temperature reactions; for the synthesis of SWCNTs, this work successfully visualizes the structure and evolution of the catalyst and illuminates the possible nucleation sites of the chirality-specific growth.

机译：近来，基于W的催化剂为合成具有特定手性的单壁碳纳米管（SWCNT）提供了一种有希望的途径，但是对生长选择性的机理却了解不清。我们提出一种策略，以识别Co-W-C三元SWCNT催化剂的原子结构以及结构演变。关键是使用SiO2薄膜作为催化剂载体和观察窗。由于催化剂是在此SiO2膜上均匀制备并直接用于SWCNT合成的，因此该方法相对于常规方法具有优势：它为获得对催化剂的原始，统计和动态理解提供了机会。作为一种技术，直接在SiO2上进行原子级成像是研究纳米晶体和高温反应的强大而多功能的工具。对于SWCNT的合成，这项工作成功地可视化了催化剂的结构和演化，并阐明了手性特异性生长的可能成核位点。

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期刊名称 Science Advances
作者
Hua An; Akihito Kumamoto; Rong Xiang; Taiki Inoue; Keigo Otsuka; Shohei Chiashi; Christophe Bichara; Annick Loiseau; Yan Li; Yuichi Ikuhara; Shigeo Maruyama;
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年(卷),期 2019(5),5
年度 2019
页码 eaat9459
总页数 8
原文格式 PDF
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1. Atomic-scale structural identification and evolution of Co-W-C ternary SWCNT catalytic nanoparticles: High-resolution STEM imaging on SiO2 [J] . Hua An, Akihito Kumamoto, Rong Xiang, Science Advances . 2019,第5期

机译：Co-W-C三元SWCNT催化纳米颗粒的原子尺度结构鉴定和演化：SiO2上的高分辨率STEM成像
2. Atomic-scale structural identification and evolution of Co-W-C ternary SWCNT catalytic nanoparticles: High-resolution STEM imaging on SiO2 [J] . Hua An, Akihito Kumamoto, Rong Xiang, Science Advances . 2019,第5期

机译：Co-W-C三元SWCNT催化纳米颗粒的原子尺度结构鉴定和演化：SiO2上的高分辨率STEM成像
3. Kinetics of alpha-olefin metathesis on binary and ternary catalytic systems based on MoCl5/SiO2: Determination of the number of active centers and the mechanisms of their formation, deactivation, and reactivation [J] . Bykov VI, Khmarin EM, Belyaev BA, Kinetics and catalysis . 2008,第1期

机译：基于MoCl5 / SiO2的二元和三元催化体系上α-烯烃复分解的动力学：确定活性中心的数量及其形成，失活和再活化的机理
4. Advanced Analysis of Spherical SiO2 Aerosol Nanoparticles with a High-Resolution SEM [C] . V.-D. Hodoroaba, S. Benemann, C. Motzkus, Microscopy Society of America Annual Meeting;Microanalysis Society Annual meeting;International Metallographic Society Annual meeting . 2012

机译：高分辨率SEM对球形SiO2气溶胶纳米颗粒的高级分析
5. Characterization and Catalytic Applications of Silver Nanoparticles Supported on Hierarchically Porous SiO2 and Co3O 4 Monoliths [D] . Yildirim, Yasemin. 2017

机译：SiO2和Co3O 4多孔多孔多孔担载载体上的银纳米颗粒的表征和催化应用
6. Phase relationships in the quasi-ternary LaO1.5–SiO2–MgO system at 1773 K [O] . Kiyoshi Kobayashi, Yoshio Sakka 2012

机译：准三元LaO1.5–SiO2–MgO系统在1773 K时的相位关系
7. Atomic-scale structural identification and evolution of Co-W-C ternary SWCNT catalytic nanoparticles: High-resolution STEM imaging on SiO2 [O] . Hua An, Akihito Kumamoto, Rong Xiang, 2019

机译：CO-W-C三元SWCNT催化纳米粒子的原子尺度结构鉴定及演化：SiO2高分辨率茎成像

Atomic-scale structural identification and evolution of Co-W-C ternary SWCNT catalytic nanoparticles: High-resolution STEM imaging on SiO2

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