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Biochar-based engineered composites for sorptive decontamination of water: A review

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Biochar-based engineered composites for sorptive decontamination of water: A review. / Premarathna, K. S.D.; Rajapaksha, Anushka Upamali; Sarkar, Binoy et al.
In: Chemical Engineering Journal, Vol. 372, 15.09.2019, p. 536-550.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Premarathna, KSD, Rajapaksha, AU, Sarkar, B, Kwon, EE, Bhatnagar, A, Ok, YS & Vithanage, M 2019, 'Biochar-based engineered composites for sorptive decontamination of water: A review', Chemical Engineering Journal, vol. 372, pp. 536-550. https://doi.org/10.1016/j.cej.2019.04.097

APA

Premarathna, K. S. D., Rajapaksha, A. U., Sarkar, B., Kwon, E. E., Bhatnagar, A., Ok, Y. S., & Vithanage, M. (2019). Biochar-based engineered composites for sorptive decontamination of water: A review. Chemical Engineering Journal, 372, 536-550. https://doi.org/10.1016/j.cej.2019.04.097

Vancouver

Premarathna KSD, Rajapaksha AU, Sarkar B, Kwon EE, Bhatnagar A, Ok YS et al. Biochar-based engineered composites for sorptive decontamination of water: A review. Chemical Engineering Journal. 2019 Sept 15;372:536-550. Epub 2019 Apr 15. doi: 10.1016/j.cej.2019.04.097

Author

Premarathna, K. S.D. ; Rajapaksha, Anushka Upamali ; Sarkar, Binoy et al. / Biochar-based engineered composites for sorptive decontamination of water : A review. In: Chemical Engineering Journal. 2019 ; Vol. 372. pp. 536-550.

Bibtex

@article{058d357d878d4235b4abc7b6eed5966b,
title = "Biochar-based engineered composites for sorptive decontamination of water: A review",
abstract = "Biochar (BC) exhibits a great potential as an adsorbent in decontamination of water. To improve the adsorption capabilities and impart the particular functionalities of BC, various methods (chemical modification, physical modification, impregnation with different materials, and magnetic modification) have been developed. As compared to surface modifications, BC-based composites provide various technical and environmental benefits because they require fewer chemicals, lesser energy, and confer enhanced contaminant removal capacity. Therefore, this review focuses on BC composites prepared by the combination of BC with different additives including metals, metal oxides, clay minerals, and carbonaceous materials, which greatly alter the physicochemical properties of BC and broaden its adsorption potential for a wide range of aquatic contaminants. Techniques for the preparation of BC composites, their adsorption potentials for a variety of inorganic and organic environmental contaminants, factors affecting BC properties and the adsorption process, and the mechanisms involved in adsorption are also discussed. Modification typically alters the surface properties and functionalities of BC composites including surface area, pore volume, pore size, surface charge, and surface functional groups. Hence, modification enhances the adsorption capacity of BC for most organic and inorganic compounds and ions. Nevertheless, some modifications negatively affect the adsorption of certain contaminants because of various factors including obstruction of pores due to over coating and development of same charge as contaminant on the surface of BC. However, the use of BC composites in environmental remediation is still in its infancy, and further research and development is needed to reach scalability and commercialization of the new technology.",
keywords = "Adsorption, Antibiotics, Biochar, Clay minerals, Nutrients, Trace metals, Water pollution",
author = "Premarathna, {K. S.D.} and Rajapaksha, {Anushka Upamali} and Binoy Sarkar and Kwon, {Eilhann E.} and Amit Bhatnagar and Ok, {Yong Sik} and Meththika Vithanage",
year = "2019",
month = sep,
day = "15",
doi = "10.1016/j.cej.2019.04.097",
language = "English",
volume = "372",
pages = "536--550",
journal = "Chemical Engineering Journal",
issn = "1385-8947",
publisher = "Elsevier Science B.V.",

}

RIS

TY - JOUR

T1 - Biochar-based engineered composites for sorptive decontamination of water

T2 - A review

AU - Premarathna, K. S.D.

AU - Rajapaksha, Anushka Upamali

AU - Sarkar, Binoy

AU - Kwon, Eilhann E.

AU - Bhatnagar, Amit

AU - Ok, Yong Sik

AU - Vithanage, Meththika

PY - 2019/9/15

Y1 - 2019/9/15

N2 - Biochar (BC) exhibits a great potential as an adsorbent in decontamination of water. To improve the adsorption capabilities and impart the particular functionalities of BC, various methods (chemical modification, physical modification, impregnation with different materials, and magnetic modification) have been developed. As compared to surface modifications, BC-based composites provide various technical and environmental benefits because they require fewer chemicals, lesser energy, and confer enhanced contaminant removal capacity. Therefore, this review focuses on BC composites prepared by the combination of BC with different additives including metals, metal oxides, clay minerals, and carbonaceous materials, which greatly alter the physicochemical properties of BC and broaden its adsorption potential for a wide range of aquatic contaminants. Techniques for the preparation of BC composites, their adsorption potentials for a variety of inorganic and organic environmental contaminants, factors affecting BC properties and the adsorption process, and the mechanisms involved in adsorption are also discussed. Modification typically alters the surface properties and functionalities of BC composites including surface area, pore volume, pore size, surface charge, and surface functional groups. Hence, modification enhances the adsorption capacity of BC for most organic and inorganic compounds and ions. Nevertheless, some modifications negatively affect the adsorption of certain contaminants because of various factors including obstruction of pores due to over coating and development of same charge as contaminant on the surface of BC. However, the use of BC composites in environmental remediation is still in its infancy, and further research and development is needed to reach scalability and commercialization of the new technology.

AB - Biochar (BC) exhibits a great potential as an adsorbent in decontamination of water. To improve the adsorption capabilities and impart the particular functionalities of BC, various methods (chemical modification, physical modification, impregnation with different materials, and magnetic modification) have been developed. As compared to surface modifications, BC-based composites provide various technical and environmental benefits because they require fewer chemicals, lesser energy, and confer enhanced contaminant removal capacity. Therefore, this review focuses on BC composites prepared by the combination of BC with different additives including metals, metal oxides, clay minerals, and carbonaceous materials, which greatly alter the physicochemical properties of BC and broaden its adsorption potential for a wide range of aquatic contaminants. Techniques for the preparation of BC composites, their adsorption potentials for a variety of inorganic and organic environmental contaminants, factors affecting BC properties and the adsorption process, and the mechanisms involved in adsorption are also discussed. Modification typically alters the surface properties and functionalities of BC composites including surface area, pore volume, pore size, surface charge, and surface functional groups. Hence, modification enhances the adsorption capacity of BC for most organic and inorganic compounds and ions. Nevertheless, some modifications negatively affect the adsorption of certain contaminants because of various factors including obstruction of pores due to over coating and development of same charge as contaminant on the surface of BC. However, the use of BC composites in environmental remediation is still in its infancy, and further research and development is needed to reach scalability and commercialization of the new technology.

KW - Adsorption

KW - Antibiotics

KW - Biochar

KW - Clay minerals

KW - Nutrients

KW - Trace metals

KW - Water pollution

U2 - 10.1016/j.cej.2019.04.097

DO - 10.1016/j.cej.2019.04.097

M3 - Journal article

AN - SCOPUS:85064952321

VL - 372

SP - 536

EP - 550

JO - Chemical Engineering Journal

JF - Chemical Engineering Journal

SN - 1385-8947

ER -