Titlebook: Advanced Research in Nanosciences for Water Technology; Ram Prasad,Thirugnanasambandham‘Karchiyappan Book 2019 The Editor(s) (if applicabl

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Esther W. Gomez,Celeste M. Nelsoning water quality guidelines can also be expected, such as those proposed by the World Health Organization (WHO). Consequently, there is a need to implement effective technologies for halide removal from water to avoid the formation of disinfection by-products (DBPs). There are innumerable individua

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R. K. Schenk,E. Hunziker,W. Herrmannth in worldwide, climate change, and industrial revolution. Hence there is a real demand of novel and innovative water purification technology for drinking water supply as well as to fulfil the industry requirement. Scientists and the researchers of the concerned field are giving their effort to dev

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A. E. Nielsen,J. Christoffersenties. Biosensors technology is taking advantage of the latest developments in materials science. Nanomaterials with sizes or features ranging from 1 to 100?nm in one or more dimensions are the core of an emerging technological revolution. They show unique properties not found in conventional materia

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https://doi.org/10.1007/978-94-009-0159-9 sustainability of water nowadays. Nanoclays and their composites have played an increasingly important role in dealing with these multifaceted pollution perspectives. These clay minerals exist in various types having basic structure of aluminosilicates but vary in their properties like cation-excha

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Design of Candidate Radiopharmaceuticals,e reported on photocatalytic disinfection but still there was a gap on disinfection mechanisms and models. Nano-photocatalysts were effectively used in treatment process than conventional methods. The utilization of nano-photocatalysts was a phenomenal choice for wastewater treatment since wastewate

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https://doi.org/10.1007/978-3-030-64530-4sastrous consequences for both human health and the environment. These contaminants are being disposed to water bodies and soil without any type of regulation and without the possibility of conventional treatment methods nor natural attenuation to achieve their removal. Advanced Oxidation Processes

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https://doi.org/10.1007/978-3-030-64530-4ents to avoid day zero. Since the Bronze Age several water treatment methods are in use. The advent of nanomaterials has provided us new treatment methods. Nanomaterials could act as energy savers and efficient water purifiers with respect to water treatment. Among the various class of nanomaterials

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P. A. Ruffini,C. Gambacorti-Passeriniiate counter measures to epitomize the catastrophic repercussions on sensitive ecological system. In this sense, various advanced techniques have been explored for the effective oil/solvent-water separation. Recently, researchers have focused on nanomaterials for efficient oil/solvent-water separati

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A. E. Karakaya,S. Burgaz,A. Bayhantly, an extensive remediation is required as soon as possible before it would get worst in the future decades. In this regard, an extreme attention has been drawn toward the use of nanotechnology because of its effectiveness in using nanomaterials and nanostructured hybrid materials for water purifi