Spatiotemporal dynamics of nanowire growth in a microfluidic reactor

Erfan, Mazen; Gnambodoe-Capochichi, Martine; Sabry, Yasser M.; Khalil, Diaa; Leprince‐Wang, Yamin; Bourouina, Tarik

doi:10.1038/s41378-021-00308-4

Cited by 5 publications

(1 citation statement)

References 50 publications

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“…In the same way as the ease of the scale up, the ease of transposing this hydrothermal synthesis method to the microfluidic mode was proved [30,36]. In order to change from laboratory scale to industrial scale, it is natural to consider going from batch experiments to continuous degradation.…”

Section: Microfluidic Reactor Productionmentioning

confidence: 99%

Hydrothermally Grown ZnO Nanostructures for Water Purification via Photocatalysis

2022

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Semiconductor-based photocatalysis is a well-known and efficient process for achieving water depollution with very limited rejects in the environment. Zinc oxide (ZnO), as a wide-bandgap metallic oxide, is an excellent photocatalyst, able to mineralize a large scale of organic pollutants in water, under UV irradiation, that can be enlarged to visible range by doping nontoxic elements such as Ag and Fe. With high surface/volume ratio, the ZnO nanostructures have been shown to be prominent photocatalyst candidates with enhanced photocatalytic efficiency, owing to their being low-cost, non-toxic, and able to be produced with easy and controllable synthesis. Thus, ZnO nanostructures-based photocatalysis can be considered as an eco-friendly and sustainable process. This paper presents the photocatalytic activity of ZnO nanostructures (NSs) grown on different substrates. The photocatalysis has been carried out both under classic mode and microfluidic mode. All tests show the notable photocatalytic efficiency of ZnO NSs with remarkable results obtained from a ZnO-NSs-integrated microfluidic reactor, which exhibited an important enhancement of photocatalytic activity by drastically reducing the photodegradation time. UV-visible spectrometry and high-performance liquid chromatography, coupled with mass spectrometry (HPLC-MS), are simultaneously used to follow real-time information, revealing both the photodegradation efficiency and the degradation mechanism of the organic dye methylene blue.

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Section: Microfluidic Reactor Productionmentioning

confidence: 99%

Hydrothermally Grown ZnO Nanostructures for Water Purification via Photocatalysis

2022

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A mixed-ligand strategy for size-controlled synthesis of hydrophobic ZnO nanocrystals by microfluidic reactor

Zhang

et al. 2023

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Integrated In-Plane Nanofluidic Devices for Resistive-Pulse Sensing

Young,

Kappler,

Call

et al. 2024

Annual Review of Analytical Chemistry

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Single-entity (or digital) measurements enhance sensitivity (10- to 100-fold improvement) and uncover heterogeneity within a population (one event in 100 to 10,000). Many biological systems are significantly influenced by rare or infrequent events, and determining what species is present, in what quantity, and role of that species is critically important to unraveling many questions. To develop these measurement systems, resistive-pulse sensing is used as a label-free, single-particle detection technique and can be combined with a range of functional elements, e.g., mixers, reactors, filters, separators, and pores. Virtually, any two-dimensional layout of the micro- and nanofluidic conduits can be envisioned, designed, and fabricated in the plane of the device. Multiple nanopores in series lead to higher-precision measurements of particle size, shape, and charge, and reactions coupled directly with the particle-size measurements improve temporal response. Moreover, other detection techniques, e.g., fluorescence, are highly compatible with the in-plane format. These integrated in-plane nanofluidic devices expand the toolbox of what is possible with single-entity measurements.

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Spatiotemporal dynamics of nanowire growth in a microfluidic reactor

Cited by 5 publications

References 50 publications

Hydrothermally Grown ZnO Nanostructures for Water Purification via Photocatalysis

Hydrothermally Grown ZnO Nanostructures for Water Purification via Photocatalysis

A mixed-ligand strategy for size-controlled synthesis of hydrophobic ZnO nanocrystals by microfluidic reactor

Integrated In-Plane Nanofluidic Devices for Resistive-Pulse Sensing

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