Kinetics Study and Online Monitoring of in-Situ Growth of Zinc-Oxide Nanowire Arrays Within Microfluidic Chambers

机译：动力学研究和在线监测微流室内氧化锌纳米线阵列的原位生长

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We present online monitoring of nanowires growth within a microfluidic chamber. This achievement is introduced for the first time thanks to simple and noninvasive real-time optical method, where the results were confirmed later by scanning electron microscopy (SEM). Nanowire length and diameter could be monitored versus growth time thanks to remote optical measurement. In this work, we also report kinetics study and online monitoring of in-situ growth of Zinc-Oxide nanowires (ZnO-NWs) within a microfluidic chamber showing the impact of different growth parameters on the NWs characteristics. It appeared that growth within a microfluidic reactor provides 4-times faster growth rate compared to macroscopic growth due to the confined environment of the chemical reaction. It also appears that varying the flow rate has more influence on the NWs diameter rather than the NWs length.

机译：我们目前在线监测微流体室内纳米线的生长。这项成就是通过简单且无创的实时光学方法首次引入的，其结果随后通过扫描电子显微镜（SEM）进行了确认。得益于远程光学测量，可以监测纳米线的长度和直径与生长时间之间的关系。在这项工作中，我们还报告了动力学研究和在线监测微流室内氧化锌纳米线（ZnO-NWs）的原位生长，显示了不同生长参数对NWs特性的影响。似乎由于化学反应的受限环境，与宏观生长相比，微流体反应器内的生长提供了四倍的生长速率。还显示出，改变流速对净水口直径而不是净水口长度的影响更大。

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《IEEE International Conference on Micro Electro Mechanical Systems》|2020年|1090-1093|共4页
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Mazen Erfan; Lan Gao; Martine Gnambodoe-Capochich; Elyes Nefzaoui; Yasser M. Sabry; Diaa Khalil; Yamin Leprince-Wang; Tarik Bourouina;
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Real-time monitoring; Microfluidic environment; Zinc-oxide nanowires; in-situ hydrothermal growth; Optical characterization; Effective refractive index; UV-vis-NIR spectroscopy;

机译：实时监测;微流体环境;氧化锌纳米线;原位水热生长;光学表征;有效折射率;紫外可见近红外光谱;

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专利

1. In-Situ Monitoring of Surface Stoichiometry and Growth Kinetics Study of GaN (0001) in MOVPE by Spectroscopy Ellipsometry [J] . Yoshitaka Taniyasu, Akihiko Yoshikawa Journal of Electronic Materials . 2001,第11期

机译：椭圆偏振光谱法原位监测MOVPE中GaN（0001）的表面化学计量和生长动力学
2. Online in-situ control of lead zirconate titanate film growth in gas discharge chamber [J] . Zinchenko S.P., Kovtun A.P., Tolmachev G.N. Technical physics letters: Letters to the Russian journal of applied physics . 2010,第5期

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3. Rapid assessment of nanomaterial homogeneity reveals crosswise structural gradients in zinc-oxide nanowire arrays [J] . International journal of applied mechanics . 2020,第3期

机译：纳米材料均匀性的快速评估揭示了氧化锌纳米线阵列中的横向结构梯度
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机译：在微流体室内实时光学监测氧化锌纳米线的原位生长
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7. In-situ growth of pine-needle-like tungsten oxide nanowire arrays on carbon nanofibers [O] . Li J, Lee KI, Lu X, 2013

机译：在碳纳米纤维上原位生长松针状氧化钨纳米线阵列
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机译：VamOs：验证和监测方案研究：目前的研究方案，用于现场监测和验证渗流区内的污染物修复和遏制

Kinetics Study and Online Monitoring of in-Situ Growth of Zinc-Oxide Nanowire Arrays Within Microfluidic Chambers

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