Nucleation Control of Oriented Titania Nanofibers

Maznichenko Dmitry; Tan Bo; Venkatakrishnan Krishnan

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Nucleation Control of Oriented Titania Nanofibers

机译：面向钛菊酯的成核控制

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A multitude of commercial products and synthetic processes are seeking an advance from dispersive to assembled nanoscale systems. In the case of widely produced nanoparticles such as those of titania, there is a further demand to understand their interactions as a system that will reveal sophisticated large-scale designs. In this study, we have developed oriented nanofibers in a three-dimensional web system comprising titania nanoparticles. The phase nucleation of these titania nanofibers are controllable by femtosecond laser pulses in ambient air. Oriented attachment of the nanofibers during phase nucleation and after processing is maintained by the atomic coordination of rutile (110) crystal facets. The outcome of this study firmly suggests a controllable route to polycrystalline nanofiber synthesis for multidimensional systems. A water quality experiment is additionally conducted with this nanoscale system in selection of application between organic molecule detection and degradation.

机译：多种商业产品和合成过程正在寻求分散的纳米级系统的分散的进步。在广泛产生的纳米颗粒如二氧化钛的情况下，有进一步的要求了解他们作为一种将揭示复杂的大规模设计的系统的相互作用。在这项研究中，我们在包含二氧化钛纳米颗粒的三维织物系统中开发了定向的纳米纤维。这些二氧化钛纳米纤维的相成核可由环境空气中的飞秒激光脉冲控制。通过金红石（110）晶面的原子配位维持在相成核期间和处理后的纳米纤维的附着。本研究的结果牢固地表明了多晶系统的多晶纳米纤维合成的可控途径。在有机分子检测和降解之间的应用中，使用该纳米级系统进行水质实验。

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《Crystal growth & design》 |2019年第8期|共6页
作者
Maznichenko Dmitry; Tan Bo; Venkatakrishnan Krishnan;
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作者单位

Ryerson Univ Dept Mech &

Ind Engn Toronto ON M5B 2K3 Canada;

Ryerson Univ Dept Aerosp Engn Toronto ON M5B 2K3 Canada;

Ryerson Univ Dept Mech &

Ind Engn Toronto ON M5B 2K3 Canada;

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正文语种 eng
中图分类晶体学;
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1. Nucleation Control of Oriented Titania Nanofibers [J] . Maznichenko Dmitry, Tan Bo, Venkatakrishnan Krishnan Crystal growth & design . 2019,第8期

机译：面向钛菊酯的成核控制
2. Unusual crystallization behaviors of anatase nanocrystallites from a molecularly thin titania nanosheet and its stacked forms: Increase in nucleation temperature and oriented growth [J] . Fukuda K, Ebina Y, Shibata T, Journal of the American Chemical Society . 2007,第1期

机译：分子薄的二氧化钛纳米片及其堆叠形式的锐钛矿型纳米微晶的异常结晶行为：成核温度升高和定向生长
3. A nucleation and growth model of vertically-oriented carbon nanofibers or nanotubes by plasma-enhanced catalytic chemical vapor deposition [J] . Cojocaru CS, Senger A, Le Normand F Journal of nanoscience and nanotechnology . 2006,第5期

机译：等离子体增强催化化学气相沉积法制备垂直取向碳纳米纤维或纳米管的成核和生长模型
4. Electrospinning of Titania Nanofibers from Controlled Hydrolysis of the Precursor via in situ Esterification [C] . Yurong Yan, Weifeng Ou Fiber Society spring conference;International conference on fibrous materials . 2009

机译：钛酸酯纳米纤维的静电纺丝通过前体的原位酯化控制前体水解
5. Oriented arrays of single-crystal titanium dioxide nanofibers by gas-phase etching: Processing and characterization. [D] . Yoo, Sehoon. 2005

机译：通过气相蚀刻定向排列的单晶二氧化钛纳米纤维的阵列：处理和表征。
6. The Effect of Sulphate Anions on the Ultrafine Titania Nucleation [O] . Volodymyr O. Kotsyubynsky, Ivan F. Myronyuk, Volodymyr L. Chelyadyn, 2017

机译：硫酸根阴离子对超细二氧化钛成核的影响
7. Nucleation Control of Oriented Titania Nanofibers [O] . -1

机译：面向滴度纳米纤维的成核控制

Nucleation Control of Oriented Titania Nanofibers

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