Statistical modeling and optimization of heterogeneous Fenton-like removal of organic pollutant using fibrous catalysts: a full factorial design

Morshed, Mohammad Neaz; Pervez, Md. Nahid; Behary, Nemeshwaree; Guan, Jing; Nierstrasz, Vincent

doi:10.1038/s41598-020-72401-z

Cited by 50 publications

(20 citation statements)

References 55 publications

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“…The automatic data collection panel of a Theta optical tensiometer records and analyzes the water drop using One Attension software as per the Young–Laplace equation . Electrokinetic measurements using the streaming potential were carried out through a SurPASS electrokinetic analyzer (Anton Paar AB, Sweden) according to the method explained in our previous study . X-ray photoelectron spectroscopy (XPS) study was carried out using a spectrophotometer (PHI 5500 ESCA, Physical Electronics Inc., USA) equipped with a monochromatic aluminum (Al) source (photon energy = 1486.6 eV) according to the method described elsewhere. − Fourier transform infrared (FTIR) chemical analysis of the pristine and modified PFs was performed using an FTIR spectrometer (Nicolet iS10, Thermo Fisher Scientific Co., USA).…”

Section: Methodsmentioning

confidence: 99%

Immobilizing Redox Enzyme on Amino Functional Group-Integrated Tailor-Made Polyester Textile: High Loading, Stability, and Application in a Bio-Fenton System

Morshed

Behary

Guan

et al. 2021

ACS Sustainable Chem. Eng.

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This study reports the first approach of immobilizing a redox (glucose oxidase-GOx) enzyme on the amino functional group-integrated tailor-made textile (polyester nonwoven fabric-PF) support matrix. To achieve that, polyethylenimine if not chitosan was chemically grafted on plasma (with O 2 / N 2 gas)-activated PF before immobilizing the GOx enzyme through physical adsorption. Diverse qualitative and quantitative characterization methods were used to validate the successful activation and GOx immobilization on amino functional groupintegrated tailor-made PF. Results showed that integration of amino functional groups on PF offers a great deal of favorable conditions during enzyme immobilization through covalent or ionic interaction between counter functional groups as reflected in high loading (55.46%) and good operational (78.37%) and thermal stability (∼60 °C) with excellent recyclability (60% activity/15cycles) and poor leaching (22%) of immobilized GOx. Enzymatic reaction kinetics of free and immobilized GOx revealed the existence of relative mass transfer and diffusion limitation of immobilized GOx as apprehended in the apparent Michaelis constant (K m ) and maximum velocity of the reaction (V max ). The resultant immobilized GOx's were studied for the first time in the removal of pollutants (10 mg L −1 crystal violet) from water in a heterogeneous bio-Fenton system. Results showed as high as 88.69% pollutant removal at 1.19 × 10 −2 min −1 following pseudo-first-order kinetic model as supported by R 2 values beyond 97. These results are of great importance as they provide fundamental evidence and proof of concepts regarding immobilizing biocatalysts on textiles and their potential application in a robust heterogeneous catalytic system for environmental and green chemistry applications.

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Section: Methodsmentioning

confidence: 99%

Immobilizing Redox Enzyme on Amino Functional Group-Integrated Tailor-Made Polyester Textile: High Loading, Stability, and Application in a Bio-Fenton System

Morshed

Behary

Guan

et al. 2021

ACS Sustainable Chem. Eng.

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“…Fenton-like heterogenous catalysts enabling dye degradation in a wide range of pH, among the others zero-valent iron catalysts, green or one-spot synthesis of catalysts, fixed bed reactor application, implementation of sulphate radical anions [92][93][94][95][96] Photo-Fenton…”

Section: Fentonmentioning

confidence: 99%

Recent Achievements in Dyes Removal Focused on Advanced Oxidation Processes Integrated with Biological Methods

2021

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In the last 3 years alone, over 10,000 publications have appeared on the topic of dye removal, including over 300 reviews. Thus, the topic is very relevant, although there are few articles on the practical applications on an industrial scale of the results obtained in research laboratories. Therefore, in this review, we focus on advanced oxidation methods integrated with biological methods, widely recognized as highly efficient treatments for recalcitrant wastewater, that have the best chance of industrial application. It is extremely important to know all the phenomena and mechanisms that occur during the process of removing dyestuffs and the products of their degradation from wastewater to prevent their penetration into drinking water sources. Therefore, particular attention is paid to understanding the mechanisms of both chemical and biological degradation of dyes, and the kinetics of these processes, which are important from a design point of view, as well as the performance and implementation of these operations on a larger scale.

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“…Textile dyeing and nishing industries are considered one of the greatest industrial polluters because they discharge a large amount of wastewater containing harmful dyes affecting the environment and human life. 1,2 In this regard, over the past several years, technologies such as adsorption, 3,4 Fenton catalytic systems, 5,6 and membranes [7][8][9] have been applied to treat these complex wastewater effluents; however, these methods are still questionable in terms of sustainable development in the textile industry. Therefore, waterless dyeings, such as dyeing in supercritical uid, [10][11][12] silicone oil, [13][14][15][16][17] liquid paraffin oil, [18][19][20] plant oil, 21,22 and ethanol, 23,24 have been studied as an example of a cleaner dyeing method to reduce water pollution.…”

Section: Introductionmentioning

confidence: 99%

Sustainable dyeing of ramie fiber with ternary reactive dye mixtures in liquid ammonia

et al. 2022

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Statistical modeling and optimization of heterogeneous Fenton-like removal of organic pollutant using fibrous catalysts: a full factorial design

Cited by 50 publications

References 55 publications

Immobilizing Redox Enzyme on Amino Functional Group-Integrated Tailor-Made Polyester Textile: High Loading, Stability, and Application in a Bio-Fenton System

Immobilizing Redox Enzyme on Amino Functional Group-Integrated Tailor-Made Polyester Textile: High Loading, Stability, and Application in a Bio-Fenton System

Recent Achievements in Dyes Removal Focused on Advanced Oxidation Processes Integrated with Biological Methods

Sustainable dyeing of ramie fiber with ternary reactive dye mixtures in liquid ammonia

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