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The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead

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Zeitschriftentitel: Science of Sintering
Personen und Körperschaften: Stojiljkovic, S., Stamenkovic, M., Kostic, D., Miljkovic, M., Arsic, B., Savic, I., Miljkovic, V.
In: Science of Sintering, 45, 2013, 3, S. 363-376
Format: E-Article
Sprache: Englisch
veröffentlicht:
National Library of Serbia
Schlagwörter:
Materials Chemistry
Metals and Alloys
Condensed Matter Physics
Ceramics and Composites
author_facet Stojiljkovic, S.
Stamenkovic, M.
Kostic, D.
Miljkovic, M.
Arsic, B.
Savic, I.
Savic, I.
Miljkovic, V.
Stojiljkovic, S.
Stamenkovic, M.
Kostic, D.
Miljkovic, M.
Arsic, B.
Savic, I.
Savic, I.
Miljkovic, V.
author Stojiljkovic, S.
Stamenkovic, M.
Kostic, D.
Miljkovic, M.
Arsic, B.
Savic, I.
Savic, I.
Miljkovic, V.
spellingShingle Stojiljkovic, S.
Stamenkovic, M.
Kostic, D.
Miljkovic, M.
Arsic, B.
Savic, I.
Savic, I.
Miljkovic, V.
Science of Sintering
The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
Materials Chemistry
Metals and Alloys
Condensed Matter Physics
Ceramics and Composites
author_sort stojiljkovic, s.
spelling Stojiljkovic, S. Stamenkovic, M. Kostic, D. Miljkovic, M. Arsic, B. Savic, I. Savic, I. Miljkovic, V. 0350-820X 1820-7413 National Library of Serbia Materials Chemistry Metals and Alloys Condensed Matter Physics Ceramics and Composites http://dx.doi.org/10.2298/sos1303363s <jats:p>Organic modification of mineral clay using the monomer ethenyl acetate was performed. The exchange of inorganic interlayer clay cations was achieved using the cationic surfactant Genamine CTAC and Asepsol. Aiming to investigate the influence of organic modifications on adsorptive clay properties, dried composites of clay/ethenyl acetate, with different percentages of clay were soaked in distilled water. The influence of the temperature on the adsorptive properties of organoclays was also followed. The adsorptive properties of the obtained composites of organoclays with Luviskol, Carbopole and purine were investigated along with their capability for removing Pb2+ from water in charged systems.</jats:p> The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead Science of Sintering
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series Science of Sintering
source_id 49
title The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
title_unstemmed The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
title_full The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
title_fullStr The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
title_full_unstemmed The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
title_short The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
title_sort the influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
topic Materials Chemistry
Metals and Alloys
Condensed Matter Physics
Ceramics and Composites
url http://dx.doi.org/10.2298/sos1303363s
publishDate 2013
physical 363-376
description <jats:p>Organic modification of mineral clay using the monomer ethenyl acetate was performed. The exchange of inorganic interlayer clay cations was achieved using the cationic surfactant Genamine CTAC and Asepsol. Aiming to investigate the influence of organic modifications on adsorptive clay properties, dried composites of clay/ethenyl acetate, with different percentages of clay were soaked in distilled water. The influence of the temperature on the adsorptive properties of organoclays was also followed. The adsorptive properties of the obtained composites of organoclays with Luviskol, Carbopole and purine were investigated along with their capability for removing Pb2+ from water in charged systems.</jats:p>
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author Stojiljkovic, S., Stamenkovic, M., Kostic, D., Miljkovic, M., Arsic, B., Savic, I., Savic, I., Miljkovic, V.
author_facet Stojiljkovic, S., Stamenkovic, M., Kostic, D., Miljkovic, M., Arsic, B., Savic, I., Savic, I., Miljkovic, V., Stojiljkovic, S., Stamenkovic, M., Kostic, D., Miljkovic, M., Arsic, B., Savic, I., Savic, I., Miljkovic, V.
author_sort stojiljkovic, s.
container_issue 3
container_start_page 363
container_title Science of Sintering
container_volume 45
description <jats:p>Organic modification of mineral clay using the monomer ethenyl acetate was performed. The exchange of inorganic interlayer clay cations was achieved using the cationic surfactant Genamine CTAC and Asepsol. Aiming to investigate the influence of organic modifications on adsorptive clay properties, dried composites of clay/ethenyl acetate, with different percentages of clay were soaked in distilled water. The influence of the temperature on the adsorptive properties of organoclays was also followed. The adsorptive properties of the obtained composites of organoclays with Luviskol, Carbopole and purine were investigated along with their capability for removing Pb2+ from water in charged systems.</jats:p>
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id ai-49-aHR0cDovL2R4LmRvaS5vcmcvMTAuMjI5OC9zb3MxMzAzMzYzcw
imprint National Library of Serbia, 2013
imprint_str_mv National Library of Serbia, 2013
institution DE-L229, DE-D275, DE-Bn3, DE-Brt1, DE-Zwi2, DE-D161, DE-Zi4, DE-Gla1, DE-15, DE-Pl11, DE-Rs1, DE-14, DE-105, DE-Ch1
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match_str stojiljkovic2013theinfluenceoforganicmodificationonthestructuralandadsorptivepropertiesofbentoniteclayanditsapplicationfortheremovaloflead
mega_collection National Library of Serbia (CrossRef)
physical 363-376
publishDate 2013
publishDateSort 2013
publisher National Library of Serbia
record_format ai
recordtype ai
series Science of Sintering
source_id 49
spelling Stojiljkovic, S. Stamenkovic, M. Kostic, D. Miljkovic, M. Arsic, B. Savic, I. Savic, I. Miljkovic, V. 0350-820X 1820-7413 National Library of Serbia Materials Chemistry Metals and Alloys Condensed Matter Physics Ceramics and Composites http://dx.doi.org/10.2298/sos1303363s <jats:p>Organic modification of mineral clay using the monomer ethenyl acetate was performed. The exchange of inorganic interlayer clay cations was achieved using the cationic surfactant Genamine CTAC and Asepsol. Aiming to investigate the influence of organic modifications on adsorptive clay properties, dried composites of clay/ethenyl acetate, with different percentages of clay were soaked in distilled water. The influence of the temperature on the adsorptive properties of organoclays was also followed. The adsorptive properties of the obtained composites of organoclays with Luviskol, Carbopole and purine were investigated along with their capability for removing Pb2+ from water in charged systems.</jats:p> The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead Science of Sintering
spellingShingle Stojiljkovic, S., Stamenkovic, M., Kostic, D., Miljkovic, M., Arsic, B., Savic, I., Savic, I., Miljkovic, V., Science of Sintering, The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead, Materials Chemistry, Metals and Alloys, Condensed Matter Physics, Ceramics and Composites
title The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
title_full The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
title_fullStr The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
title_full_unstemmed The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
title_short The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
title_sort the influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
title_unstemmed The influence of organic modification on the structural and adsorptive properties of bentonite clay and its application for the removal of lead
topic Materials Chemistry, Metals and Alloys, Condensed Matter Physics, Ceramics and Composites
url http://dx.doi.org/10.2298/sos1303363s