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      Sustainable polymeric adsorbents for adsorption-based water remediation and pathogen deactivation: a review

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          Abstract

          Water is a fundamental resource, yet various contaminants increasingly threaten its quality, necessitating effective remediation strategies. Sustainable polymeric adsorbents have emerged as promising materials in adsorption-based water remediation technologies, particularly for the removal of contaminants and deactivation of water-borne pathogens. Pathogenetic water contamination, which involves the presence of harmful bacteria, viruses, and other microorganisms, poses a significant threat to public health. This review aims to analyze the unique properties of various polymeric materials, including porous aromatic frameworks, biopolymers, and molecularly imprinted polymers, and their effectiveness in water remediation applications. Key findings reveal that these adsorbents demonstrate high surface areas, tunable surface chemistries, and mechanical stability, which enhance their performance in removing contaminants such as heavy metals, organic pollutants, and emerging contaminants from water sources. Furthermore, the review identifies gaps in current research and suggests future directions, including developing multifunctional polymeric materials and integrating adsorption techniques with advanced remediation technologies. This comprehensive analysis aims to contribute to advancing next-generation water purification technologies, ensuring access to clean and safe water for future generations.

          Abstract

          Water is a fundamental resource, yet various contaminants increasingly threaten its quality, necessitating effective remediation strategies.

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          Recent developments in polysaccharide-based materials used as adsorbents in wastewater treatment

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            Exploitation of Intrinsic Microporosity in Polymer-Based Materials

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              Extracellular polymeric substances of bacteria and their potential environmental applications.

              Biopolymers are considered a potential alternative to conventional chemical polymers because of their ease of biodegradability, high efficiency, non-toxicity and non-secondary pollution. Recently, extracellular polymeric substances (EPS, biopolymers produced by the microorganisms) have been recognised by many researchers as a potential flocculent for their applications in various water, wastewater and sludge treatment processes. In this context, literature information on EPS is widely dispersed and is very scarce. Thus, this review marginalizes various studies conducted so far about EPS nature-production-recovery, properties, environmental applications and moreover, critically examines future research needs and advanced application prospective of the EPS. One of the most important aspect of chemical composition and structural details of different moieties of EPS in terms of carbohydrates, proteins, extracellular DNA, lipid and surfactants and humic substances are described. These chemical characteristics of EPS in relation to formation and properties of microbial aggregates as well as degradation of EPS in the matrix (biomass, flocs etc) are analyzed. The important engineering properties (based on structural characteristics) such as adsorption, biodegradability, hydrophilicity/hydrophobicity of EPS matrix are also discussed in details. Different aspects of EPS production process such as bacterial strain maintenance; inoculum and factors affecting EPS production were presented. The important factors affecting EPS production include growth phase, carbon and nitrogen sources and their ratio, role of other nutrients (phosphorus, micronutrients/trace elements, and vitamins), impact of pH, temperature, metals, aerobic versus anaerobic conditions and pure and mixed culture. The production of EPS in high concentration with high productivity is essential due to economic reasons. Therefore, the knowledge about all the aspects of EPS production (listed above) is highly essential to formulate a logical and scientific basis for the research and industrial activities. One of the very important issues in the production/application/biodegradation of EPS is how the EPS is extracted from the matrix or a culture broth. Moreover, EPS matrix available in different forms (crude, loosely bound, tightly bound, slime, capsular and purified) can be used as a bioflocculant material. Several chemical and physical methods for the extraction of EPS (crude form or purified form) from different sources have been analyzed and reported. There is ample information available in the literature about various EPS extraction methods. Flocculability, dewaterability and biosorption ability are the very attractive engineering properties of the EPS matrix. Recent information on important aspects of these properties qualitatively as well as quantitatively has been described. Recent information on the mechanism of flocculation mediated by EPS is presented. Potential role of EPS in sludge dewatering and biosorption phenomenon has been discussed in details. Different factors influencing the EPS ability to flocculate and dewaterability of different suspensions have been included. The factors considered for the discussion are cations, different forms of EPS, concentration of EPS, protein and carbohydrate content of EPS, molecular weight of EPS, pH of the suspension, temperature etc. These factors were selected for the study based upon their role in the flocculation and dewatering mechanism as well the most recent available literature findings on these factors. For example, only recently it has been demonstrated that there is an optimum EPS concentration for sludge flocculation/dewatering. High or low concentration of EPS can lead to destabilization of flocs. Role of EPS in environmental applications such as water treatment, wastewater flocculation and settling, colour removal from wastewater, sludge dewatering, metal removal and recovery, removal of toxic organic compounds, landfill leachate treatment, soil remediation and reclamation has been presented based on the most recent available information. However, data available on environmental application of EPS are very limited. Investigations are required for exploring the potential of field applications of EPS. Finally, the limitations in the knowledge gap are outlined and the research needs as well as future perspectives are highlighted.
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                Author and article information

                Journal
                RSC Adv
                RSC Adv
                RA
                RSCACL
                RSC Advances
                The Royal Society of Chemistry
                2046-2069
                21 October 2024
                17 October 2024
                21 October 2024
                : 14
                : 45
                : 33143-33190
                Affiliations
                [a ] College of Science and Humanities, Jubail Imam Abdulrahman Bin Faisal University Jubail Saudi Arabia
                [b ] Department of Chemistry, College of Science, Taif University P.O. Box 11099 Taif 21944 Saudi Arabia
                [c ] Chemistry Department, College of Science, Imam Abdulrahman Bin Faisal University P.O. Box 1982 Dammam 31441 Saudi Arabia
                [d ] Department of Chemistry, College of Science, Northern Border University (NBU) Arar Saudi Arabia
                [e ] Department of Chemistry, College of Science, Princess Nourah Bint Abdulrahman University P.O. Box 84428 Riyadh 11671 Saudi Arabia
                [f ] Department of Chemistry, College of Science, King Faisal University P.O. Box 400 Al-Ahsa 31982 Saudi Arabia
                [g ] Chemistry Department, Faculty of Science, Ain Shams University Abbassia Cairo 11566 Egypt
                [h ] Faculty of Science, University of Jeddah Jeddah Saudi Arabia
                [i ] Radiation Research of Polymer Chemistry Department, National Center for Radiation Research and Technology (NCRRT), Egyptian Atomic Energy Authority (EAEA) Cairo Egypt Mohamed_ghobashy@ 123456yahoo.com
                [j ] Solid State and Electronic Accelerators Department, National Center for Radiation Research and Technology (NCRRT), Egyptian Atomic Energy Authority (EAEA) Cairo Egypt
                [k ] Physics Department, Faculty of Science, King Abdulaziz University Jeddah Saudi Arabia
                [l ] Physics Department, Faculty of Science, Alexandria University 21568 Alexandria Egypt
                Author information
                https://orcid.org/0000-0001-9373-1811
                https://orcid.org/0000-0003-3286-3524
                https://orcid.org/0000-0002-5285-2155
                https://orcid.org/0000-0001-6074-7366
                https://orcid.org/0000-0003-0968-1423
                https://orcid.org/0000-0002-5602-4074
                Article
                d4ra05269b
                10.1039/d4ra05269b
                11492427
                39434995
                7866f665-bb58-42f1-be33-984518091fd3
                This journal is © The Royal Society of Chemistry

                This article is licensed under a Creative Commons Attribution-Non Commercial 3.0 Unported Licence. You can use material from this article in other publications without requesting further permissions from the RSC, provided that the correct acknowledgement is given and it is not used for commercial purposes.

                History
                : 2 August 2024
                : 17 September 2024
                Page count
                Pages: 48
                Funding
                Funded by: Northern Border University, doi 10.13039/501100014786;
                Award ID: NBU-FFR-2024-2618-07
                Categories
                Chemistry
                Custom metadata
                Paginated Article

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