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Please use this identifier to cite or link to this item:
http://krishi.icar.gov.in/jspui/handle/123456789/49540
Title: | Nanomaterials for sustainable remediation of chemical contaminants in water and soil |
Other Titles: | Not Available |
Authors: | Raj Mukhopadhyay, Binoy sarkar, Eakalak Khan, Daniel S. Alessi, Jayanta Kumar Biswas, K. M. Manjaiah, Miharu Eguchi, Kevin C. W. Wu, Yusuke Yamauchi, Yong Sik Ok |
ICAR Data Use Licennce: | http://krishi.icar.gov.in/PDF/ICAR_Data_Use_Licence.pdf |
Author's Affiliated institute: | ICAR::Central Soil Salinity Research Institute Lancaster university, UK Korea University, South Korea University of Nevada, USA University of Alberta, Canada University of Kalyani, India ICAR-Indian Agricultural Research Institute, India The University of Queensland, Australia National Institute for Materials Science, Japan National Taiwan University, Taiwan |
Published/ Complete Date: | 2021-02-01 |
Project Code: | Not Available |
Keywords: | Environmental protection; green and sustainable remediation; sustainable development goals; soil remediation; soil pollution; wastewater treatment |
Publisher: | Taylor and Francis |
Citation: | Not Available |
Series/Report no.: | Not Available; |
Abstract/Description: | Rapid growth in population, industry, urbanization and intensive agriculture have led to soil and water pollution by various contaminants. Nanoremediation has become one of the most successful emerging technologies for cleaning up soil and water contaminants due to the high reactivity of nanomaterials (NMs). Numerous publications are available on the use of NMs for removing contaminants, and the efficiencies are often improved by modifications of NMs with polymers, clay minerals, zeolites, activated carbon, and biochar. This paper critically reviews the current state-of-the-art NMs used for sustainable soil and water remediation, focusing on their applications in novel remedial approaches, such as adsorption/filtration, catalysis, photodegradation, electro-nanoremediation, and nano-bioremediation. Insights into process performances, modes of deployment, potential environmental risks and their management, and the consequent societal and economic implications of using NMs for soil and water remediation indicate that widespread acceptance of nanoremediation technologies requires not only a substantial advancement of the underpinning science and engineering aspects themselves, but also practical demonstrations of the effectiveness of already recognized approaches at real world in-situ conditions. New research involving green nanotechnology, nano-bioremediation, electro-nanoremediation, risk assessment of NMs, and outreach activities are needed to achieve successful applications of nanoremediation at regional and global scales. |
Description: | Not Available |
ISSN: | Not Available |
Type(s) of content: | Article |
Sponsors: | Not Available |
Language: | English |
Name of Journal: | Critical Reviews in Environmental Science and Technology |
NAAS Rating: | 14.3 |
Impact Factor: | 12.561 |
Volume No.: | Not Available |
Page Number: | Not Available |
Name of the Division/Regional Station: | Not Available |
Source, DOI or any other URL: | https://doi.org/10.1080/10643389.2021.1886891 |
URI: | http://krishi.icar.gov.in/jspui/handle/123456789/49540 |
Appears in Collections: | NRM-CSSRI-Publication |
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