Hydrothermal growth mechanism of SnO2 nanorods in aqueous HCl

PatrickLeidich; MihailMondeshki; BastianBarton; UteKolb; MartinPanth?fer; WolfgangTremel

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Hydrothermal growth mechanism of SnO2 nanorods in aqueous HCl

机译：水溶液中SnO2纳米棒水热生长机理

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Rutile-type nanorods of SnO2 were obtained in a one-pot hydrothermal synthesis starting from SnCl4·5H2O and HCl in a temperature range between 200 and 240°C. Although the nanorods are polydisperse, the average length of the nanorods could be adjusted from 13 to 65 nm by varying of the reaction temperature. The resulting anisotropic nanocrystals were characterized using powder X-ray diffraction (PXRD), (high resolution-) transmission electron microscopy (HR-TEM), and selected area electron diffraction (SAED). The particle growth proceeds via a dissolution-recrystallization process with soluble [SnCl5(H2O)]? intermediates, as confirmed by PXRD, Raman spectroscopy, and magic angle spinning nuclear magnetic resonance (MAS-NMR).

机译：在从SnCl4·5H2O和HCl在200至240℃之间的温度范围内的一罐水热合成中获得SnO2的金红石型纳米棒。尽管纳米棒是多分散的，但是纳米棒的平均长度可以通过改变反应温度从13至65nm调节。使用粉末X射线衍射（PXRD），（高分辨率 - ）透射电子显微镜（HR-TEM）和选择的区域电子衍射（SAED）表征得到的各向异性纳米晶体。颗粒生长通过溶解 - 再结晶方法进行可溶性[SnCl5（H2O）]？由PXRD，拉曼光谱和魔法角度纺丝核磁共振（MAS-NMR）证实的中间体。

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《Zeitschrift fur Naturforschung, B. A Journal of Chemical Sciences》 |2018年第11期|共7页
作者
PatrickLeidich; MihailMondeshki; BastianBarton; UteKolb; MartinPanth?fer; WolfgangTremel;
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作者单位

Institut für Anorganische Chemie und Analytische Chemie Johannes Gutenberg-Universit?t Mainz Duesbergweg 10–14 Mainz 55128 Germany;

Institut für Anorganische Chemie und Analytische Chemie Johannes Gutenberg-Universit?t Mainz Duesbergweg 10–14 Mainz 55128 Germany;

Institut für Anorganische Chemie und Analytische Chemie Johannes Gutenberg-Universit?t Mainz Duesbergweg 10–14 Mainz 55128 Germany;

Institut für Anorganische Chemie und Analytische Chemie Johannes Gutenberg-Universit?t Mainz Duesbergweg 10–14 Mainz 55128 Germany;

Institut für Anorganische Chemie und Analytische Chemie Johannes Gutenberg-Universit?t Mainz Duesbergweg 10–14 Mainz 55128 Germany;

Institut für Anorganische Chemie und Analytische Chemie Johannes Gutenberg-Universit?t Mainz Duesbergweg 10–14 Mainz 55128 Germany Fax: +49 6131 3925605;

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正文语种 eng
中图分类化学;
关键词
crystal growth; mineralizer; nanorods; tin dioxide;

机译：晶体生长;矿化器;纳米棒;二氧化锡;

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专利

1. Hydrothermal growth mechanism of SnO2 nanorods in aqueous HCl [J] . PatrickLeidich, MihailMondeshki, BastianBarton, Zeitschrift fur Naturforschung, B. A Journal of Chemical Sciences . 2018,第11期

机译：水溶液中SnO2纳米棒水热生长机理
2. Morphology-controlled synthesis and growth mechanisms of branched α-MnO_2 nanorods via facile microwave-assisted hydrothermal method [J] . Xinhao Zhang, Benxian Li, Xiaoyuan Li, Journal of materials science . 2014,第2期

机译：微波辅助水热法研究α-MnO_2支链纳米棒的形貌控制合成与生长机理
3. Ultrathin SnO2 Nanorods: Template- and Surfactant-Free Solution Phase Synthesis, Growth Mechanism, Optical, Gas-Sensing, and Surface Adsorption Properties [J] . Xi GC, Ye JH Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2010,第5期

机译：超薄SnO2纳米棒：无模板和无表面活性剂的溶液相合成，生长机理，光学，气体传感和表面吸附特性
4. CORROSION MECHANISMS OF ALLOY N10276 IN HYDROTHERMAL HCL SOLUTIONS: FAILURE ANALYSIS AND EXPOSURE STUDIES [C] . J. A. Cline, P. A. Marrone, D. B. Mitton, Conference on Corrosion 2001, 2001 . 2001

机译：N10276合金在热氯化氢溶液中的腐蚀机理：失效分析和暴露研究
5. Hydrothermal crystallization of barium titanate: Mechanisms of nucleation and growth. [D] . Chun, Chang-Min. 1997

机译：钛酸钡的水热结晶：成核和生长机理。
6. Aerosol assisted chemical vapour deposition of gas sensitive SnO2 and Au-functionalised SnO2 nanorods via a non-catalysed vapour solid (VS) mechanism [O] . Stella Vallejos, Soultana Selina, Fatima Ezahra Annanouch, -1

机译：通过非催化气固（VS）机理对气敏SnO2和Au功能化SnO2纳米棒进行气溶胶辅助化学气相沉积
7. Revealing the Mechanisms behind SnO2 Nanoparticle Formation and Growth during Hydrothermal Synthesis: An In Situ Total Scattering Study [O] . Kirsten M. Ø. Jensen, Mogens Christensen, Pavol Juhas, 2014

机译：揭示水热合成过程中snO2纳米颗粒形成和生长背后的机制：原位总散射研究

Hydrothermal growth mechanism of SnO2 nanorods in aqueous HCl

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