Droplet Microfluidic Device for Rapid and Efficient Metals Separation Using Host-Guest Chemistry

Kurniawan, Yehezkiel Steven; Sathuluri, Ramachandra Rao; Ohto, Keisuke

doi:10.5772/intechopen.89846

Cited by 5 publications

(8 citation statements)

References 66 publications

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“…Last but not least is the microfluidics reaction which is defined as the reaction on the micro-vessel device. Microfluidics offers high mass transfer rate as well as large surface contact area and very short diffusion distance [40] [41]. Because of that, microfluidics knowledge has been applied for several applications including chemical synthesis.…”

Section: Solventmentioning

confidence: 99%

Green Chemistry Influences in Organic Synthesis : a Review

Kurniawan

Priyangga

Krisbiantoro

et al. 2021

J. Multidiscip. Appl. Nat. Sci.

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Environmental pollution and global warming cause serious problems in human life. Since the demand for our human daily appliances had been increased by years, the organic chemical-based industries response that demand increment by increasing their production process. Because of that, the environmental pollution becomes worse and worse. Green chemistry thus was introduced to influence the chemical industries to strive for better environmental sustainability. Over 20 years, green chemistry principles have to influence the organic chemistry field especially as many researchers have put their attention on that field of research. So far, synthesis process involving organic compounds has been considered on waste prevention, safer solvents, design for high energy efficiency, and usage of renewable feedstocks. This review comprehensively discusses in brief about the implementation of green chemistry principle and their applications in the synthesis process of organic compounds.

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Section: Solventmentioning

confidence: 99%

Green Chemistry Influences in Organic Synthesis : a Review

Kurniawan

Priyangga

Krisbiantoro

et al. 2021

J. Multidiscip. Appl. Nat. Sci.

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“…In this work, we performed a fluid dynamics study of Li(I) extraction in a T-type microreactor system. The aqueous phase is injected as a continuous phase, while the organic phase is injected as a dispersed phase in the T-type microreactor system resulted in the generation of organic phase droplets in the main microchannel [9]. The T-type microreactor system selected in the present work squeezed strongly the dispersed phase at the T-junction thus extra shear stress enhances the recirculation velocity inside the droplets.…”

Section: Fluid Flow Pattern In a T-type Microreactor Systemmentioning

confidence: 99%

“…Calixarene is a supramolecular host compound that exhibits remarkable ion discrimination ability in the solvent extraction process [9]. Calixarene has several advantages, such as large-scale synthesis, rigid conformation and structure, and thermal stability [10].…”

Section: Introductionmentioning

confidence: 99%

New Concept for the Study of the Fluid Dynamics of Lithium Extraction Using Calix[4]arene Derivatives in T-Type Microreactor Systems

et al. 2021

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Lithium extraction remains a challenge in the hydrometallurgy process due to its economic value and maldistribution sources. Employing calix[4]arene derivatives in solvent extraction techniques results in high selectivity and extraction capability, but a slow extraction rate. The slow kinetics of batch-wise extraction can be drastically accelerated by using a T-type microreactor system. Therefore, a combination of calix[4]arene and a microreactor system serves as an ideal platform for efficient lithium extraction. In this work, the fluid dynamics of lithium extraction using a monoacetic acid calix[4]arene derivative in a T-type microreactor system were studied. Increasing the O/A ratio increases the average length, surface area, and volume of the organic droplets, but decreases the specific surface area. In contrast, increasing the Reynolds number decreases the average length, surface area, and volume of the organic droplets, but increases the specific surface area. It was found that shorter diffusion distance, larger specific surface area, and faster vortex velocity were the factors that play the most pivotal roles in achieving great extraction rate enhancement in T-type microreactor systems compared to batch-wise systems. These findings represent an important new concept in the study of the fluid dynamics of lithium extraction using monoacetic acid calix[4]arene derivatives in T-type microreactor systems.

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“…Calixarene compounds were introduced by Gutsche in 1978 and afterward, the calixarene field attracted the world's attention due to its high stability, rigid structure, large-scale synthesis, and ease in modifications [117]. By using the ion template on the synthesis process of calixarene, the cavity size of calixarene could be controlled to form calix [4]arene, calix [5]arene, calix [6]arene, and calix [8]arene [65]. The chemical structures of calix[n]arene are shown in Fig.…”

Section: Calixarenementioning

confidence: 99%

“…7) have been introduced and thoroughly investigated for several applications [33,56,77,52,61,34,111]. The chemical modification of calixarene on either the lower or upper rim could be easily conducted while maintaining the conformation of the calixarene [71,65]. Accordingly, researchers are giving high interest to the calixarene field [60,62,63,66].…”

Section: Calixarenementioning

confidence: 99%

Supramolecular Ion-Exchange Resins Based on Calixarene Derivatives for Pollutant Removal from Aquatic Environmental Samples

Jumina

Kurniawan

2021

Inorganic-Organic Composites for Water and Wastewater Treatment

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Water pollutants, i.e., heavy metal ions, pesticides, dyes, and pigments, are contaminating our aquatic environment and generating serious health damage for the human body. Adsorption using ion-exchange resin materials is one of the versatile techniques for water treatment due to its simple and low-cost process. However, when the separation and pre-concentration of the water pollutants only rely on the ion-exchange mechanism, selective removal of water pollutants cannot be easily achieved. In contrast, a supramolecular organic compound named calixarene offers a promising technology for selective ion and molecular discrimination due to strict host-guest interactions. We reviewed the up-to-date research of supramolecular ionexchange resins based on calixarene derivatives for pollutant removal from aquatic environmental samples. There are three techniques to prepare the supramolecular ion-exchange resins based on calixarene derivatives: (1) impregnation of calixarene on the commercially available resins, (2) polymerization of calixarene, and (3) crosslink-reaction of the calixarene derivatives. The description, advantages, and disadvantages of each technique are discussed. By using these techniques, hundreds of ion-exchange resin materials have been successfully prepared and they showed a remarkable capability and selectivity for heavy metal ions, pesticides, dyes, and pigments removal.

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Droplet Microfluidic Device for Rapid and Efficient Metals Separation Using Host-Guest Chemistry

Cited by 5 publications

References 66 publications

Green Chemistry Influences in Organic Synthesis : a Review

Green Chemistry Influences in Organic Synthesis : a Review

New Concept for the Study of the Fluid Dynamics of Lithium Extraction Using Calix[4]arene Derivatives in T-Type Microreactor Systems

Supramolecular Ion-Exchange Resins Based on Calixarene Derivatives for Pollutant Removal from Aquatic Environmental Samples

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