Graphene‐Based Sorbents for Multipollutants Removal in Water: A Review of Recent Progress

Yap, Pei Lay; Nine, J.; Hassan, Kamrul; Tùng, Trần Thanh; Tran, Diana; Lošić, Dušan

doi:10.1002/adfm.202007356

Cited by 88 publications

(41 citation statements)

References 108 publications

(150 reference statements)

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“…The exclusive skeleton structure can give the products several especial advantages while also avoiding the agglomeration of particles. [102,103] Since the excellent performance in sewage treatment, seawater desalination, and antibacterial and antifouling materials, extensive attention has been paid to MOF composites in recent years.…”

Section: Other Mof Compositesmentioning

confidence: 99%

Applications of Metal‐Organic Frameworks in Water Treatment: A Review

Yang

Kai-liang

et al. 2021

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122

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ions, synthetic dyes, antibiotics, and other substances in groundwater and wastewater discharged from factories have caused serious harm to the environment and human health. Therefore, it is vital to develop efficient water pollution treatment methods.The heavy metal ions discharged from factories into rivers and lakes can cause diffusion and pollution. Highly toxic heavy metal ions are easy to accumulate in organisms because they are not biodegradable. [1] Organic dyes and radioactive pollutants produced in industrial production will diffuse into soil and water resources, endangering the safety of animals, plants and human life. [2] The leakage of antibiotics in the fields of biology and medicine will destroy the balance and stability of the ecosystem. [3] An enormous number of pollutants are persistent and difficult to degrade. Scientists have been committed to developing various technologies and materials for removing pollutants from water environment. Nevertheless, effectively purifying sewage still remains a tough challenge.Various techniques are used for sewage purification to remove pollutants in the environment. Common methods include separation, [4] absorption, [5] photocatalytic degradation, [6] and membrane filtration. [7] However, traditional absorbents and catalysts such as zeolites, activated carbons, organic resins, etc. have poor pollutant removal capabilities. [8] Traditional adsorbents, such as carbons and clay minerals, exhibit weak ionic affinity and low adsorption efficiency for metals. [9] Furthermore, partial catalysts possess inferior charge separation efficiency, recyclability, and chemical stability, which is likely to cause secondary pollution to water sources, and does not meet the requirements of green, energy saving, and renewable in the field of modern environment protection. [10] Therefore, researchers have been trying to exploit an efficient and economical composite material with superb specific surface area, high separation and strong reusability. [11] Metal-organic framework (MOF) is a new type of composite material self-assembled by metal ions or metal clusters and organic linkers. [12] As a novel type porous material, MOF has adjustable pore size, superior specific surface area and excellent porosity, and its performance is more superiority than traditional materials such as zeolite and clay. [13] They have raisedThe ever-expanding scale of industry and agriculture has led to the gradual increase of pollutants (e.g., heavy metal ions, synthetic dyes, and antibiotics) in water resources, and the ecology and wastewater are grave problems that need to be solved urgently and has attracted widespread attention from the research community and industry in recent years. Metal-organic frameworks (MOFs) are a type of organic-inorganic hybrid material with a distinctive 3D network crystal structure. Lately, MOFs have made striking progress in the fields of adsorption, catalytic degradation, and biomedicine on account of their large specific surface and well-developed pore structure. This...

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Section: Other Mof Compositesmentioning

confidence: 99%

Applications of Metal‐Organic Frameworks in Water Treatment: A Review

Yang

Kai-liang

et al. 2021

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122

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“…Because of their intrinsic hydrophobicity, low density, and stable chemical bonds, carbon-based materials have long attracted interest as potential oil sorbent materials. CC bonds have a strong covalent interaction with sp 2 hybridization in typical carbon allotropies, including CNT (1-dimension), [143][144][145] graphene (2-dimension), [146][147][148] and graphite (3-dimension). [149,150] These stable carbon structures can be added to existing sorbents to increase their hydrophobicity or improve their oil/ water separation qualities.…”

Section: Carbon-based Sorbentmentioning

confidence: 99%

A Role for Newly Developed Sorbents in Remediating Large‐Scale Oil Spills: Reviewing Recent Advances and Beyond

Kim

Zhang

Chung

et al. 2021

Advanced Sustainable Systems

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The conservation of ocean and freshwater have been crucial issues over the past decades, and oil/water separation is a well‐known technology to restore polluted water systems. In the meantime, oil sorbents serve as a promising means of achieving water conservation to recover from oil spills, which require a multi‐factorial approach to review high selectivity, capacity, and rate of oil recovery. However, reusability is a critical component to consider in incidents with large‐scale spills. With the development of sorbent technology, some studies have progressed to explore surface engineering and material design for high oil sorption capacity and durability. Thus, this systemic review, a summary of sorbent developments, serves as a guide to understanding practical applications that can apply to large‐scale oil spills and recognize remaining issues. In this review, the oil weathering process and oil sorption mechanisms in relation to the characteristics of target pollutants are introduced. Then, this comprehensive review focuses on materials in advanced sorbents. These materials have properties including, aligned channels for fast sorption, self‐heating capabilities for viscous oil cleanup, and magnetic‐responsiveness to enhance a collection of final products. The perspective and challenges for the next generation of oil spills remediation technology‐based oil sorbents materials are finally presented in the last section.

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“…where KF represented to the constant model, [MB]aq,e was the methylene blue concentration in the solution at the equilibrium, and nF represented a value which indicates if the process is favorable (nF greater than 1) or not. The experimental data derived from the adsorption of methyl orange indicated that, the linearized form of the Langmuir isotherm best fitted them: (3) in this equation, KL represented the model constant, and the subscript ad,m represented the maximum dye concentration in the adsorbent. This adsorbent had adsorption uptakes of 244 mg/g and 205 mg/g for methyl orange and methylene blue, respectively.…”

Section: Adsorptionmentioning

confidence: 99%

“…The importance of these adsorptive methodologies on the removal of organic dyes from waters is reflected in the number of investigations and reviews published along the years. Recently, several reviews about the use of a given type of adsorbents in this role, included silica-based mesoporous materials of the M41S and SBA-n families [1], different types of graphene-based materials [2,3], biochars [4], metal-organic frameworks (MOF) [5,6], various types of polymeric nanofibers [7], metal-doped porous carbon materials [8], and activated carbon fibers [9] The present work reviews very recent publications (first half of 2021 year) about the use of adsorbents in the removal of organic dyes from waters, in many cases, the investigations are carried out on synthetic solutions, but there are some examples in which adsorbents are used on real waters. Readers must be aware that this review does not include publications about desorption-degradation processing of these toxic chemicals.…”

Section: Introductionmentioning

confidence: 99%

Organic Dyes Versus Adsorption Processing

López

2021

Preprint

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Even in the first quarter of XXI century, the presence of organic dyes in wastewaters is a normal occurrence in a series of countries, and being these compounds toxics, their removal from these waters is of a necessity. Among the separation technologies, adsorption processing appeared as one of the most widely used to reach this goal. The present work reviewed the most recent approaches (first half of 2021 year) about the use of a variety of adsorbents on the removal of, also, a variety of organic dyes of different nature.

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Graphene‐Based Sorbents for Multipollutants Removal in Water: A Review of Recent Progress

Cited by 88 publications

References 108 publications

Applications of Metal‐Organic Frameworks in Water Treatment: A Review

Applications of Metal‐Organic Frameworks in Water Treatment: A Review

A Role for Newly Developed Sorbents in Remediating Large‐Scale Oil Spills: Reviewing Recent Advances and Beyond

Organic Dyes Versus Adsorption Processing

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