LEADER 04191nam 2200985z- 450 001 9910367564603321 005 20240130161304.0 010 $a3-03921-172-2 035 $a(CKB)4100000010106100 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/41038 035 $a(EXLCZ)994100000010106100 100 $a20202102d2019 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aApplication and Behavior of Nanomaterials in Water Treatment 210 $cMDPI - Multidisciplinary Digital Publishing Institute$d2019 215 $a1 electronic resource (174 p.) 311 $a3-03921-171-4 330 $aThe book compiles scientific articles describing advances in nanomaterial synthesis and their application in water remediation. The publications treat diverse problems such as dye degradation, heavy metal ion, as well as radioactive element capture and sequestration. There are 10 original research articles and one review article. The latter proposes graphene/CNT and Prussian blue nanocomposites for radioactive 137-cesium extraction from aqueous media. All reports thoroughly characterize the nanomaterials post-synthesis and describe their catalytic, photocatalytic, or ion exchange activities in contaminated water. The dyes studied in the collection are azo dyes, i.e. methylene blue and orange, rhodamine B, phenolic dyes viz. bromophenol blue, and other dyes with sulfonyl groups. Extraction of radioactive elements, including cationic 137Cs+ and anionic 125I?, is also investigated. The omnipresence of ZnO nanoparticles in everyday products and their effects in wastewater are also evaluated. Layered double hydroxide are capable of capturing Ag ions, which then has a catalytic effect on dye degradation. The nanomaterials considered are varied, viz., graphene, CNT, Prussian blue, nanoporous carbon, layered double hydroxides, magnetite, ferrites, organic powders, polymer membranes, bacteria, and inorganic nanomaterials such as MnO and Ag. The book targets an interdisciplinary readership. 610 $aLDHs 610 $amagnetic photocatalyst 610 $abioremediation 610 $amembrane 610 $aBiOCl 610 $aBiVO4 610 $adegradation 610 $aagglomeration 610 $asolvent vapor annealing 610 $ananoporous carbon 610 $ananocomposite 610 $aPrussian blue 610 $astability 610 $asilver nanomaterials 610 $aadsorption 610 $awastewater 610 $adesalination 610 $aZnO nanoparticles 610 $afilm 610 $amagnetic performance 610 $ametal-organic frameworks 610 $a137Cs+ selectivity 610 $ananomixtures 610 $awater remediation 610 $aphotocatalytic activity 610 $aadsorption properties 610 $amagnetic extraction 610 $aRGO 610 $astructural regularity 610 $aphotocatalytic mechanism 610 $awastewater treatment 610 $a137-Cesium 610 $aphotocatalyst 610 $amagnetic nanoparticles 610 $agraphene 610 $aradioactive iodine 610 $acarbon nanotubes 610 $adoping modification 610 $aelectrospinning 610 $aradioactive contamination 610 $aMn-Zn ferrite 610 $amixed wastewater 610 $amanganese oxide 610 $ahost-guest interaction 610 $abromophenol blue 610 $aDy3+ 610 $aorganic pollutants 610 $adye 610 $abeta-cyclodextrin polymer 610 $apolydopamine 610 $ainteraction 610 $adye removal 610 $aadsorption models 610 $aRhB photodegradation 610 $ahydrothermal method 610 $asupercapacitor 700 $aRauwel$b habil. Erwan$4auth$01296341 702 $aRauwel$b Protima$4auth 702 $aUhl$b Wolfgang$4auth 906 $aBOOK 912 $a9910367564603321 996 $aApplication and Behavior of Nanomaterials in Water Treatment$93024020 997 $aUNINA