Single and competitive adsorption of OMPs by carbon nanotubes – mechanism and fitting models

Single and competitive adsorption of OMPs by carbon nanotubes – mechanism and fitting models

The adsorption of three organic micropollutants (diclofenac – DFN, pentachlorophenol – PCP and octylphenol – OP) on two kinds of carbon nanotubes (single walled carbon nanotubes – SWCNT and single walled carbon nanotubes with amine group – SWCNT-NH2) was investigated, in single and bicomponent solut...

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Main Authors: Kamińska Gabriela, Dudziak Mariusz, Bohdziewicz Jolanta, Kudlek Edyta
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:E3S Web of Conferences
Online Access:https://doi.org/10.1051/e3sconf/20172200076
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spelling doaj-9b0ae146f46c47b799ad44082b185d982021-08-11T14:28:29ZengEDP SciencesE3S Web of Conferences2267-12422017-01-01220007610.1051/e3sconf/20172200076e3sconf_asee2017_00076Single and competitive adsorption of OMPs by carbon nanotubes – mechanism and fitting modelsKamińska GabrielaDudziak MariuszBohdziewicz JolantaKudlek EdytaThe adsorption of three organic micropollutants (diclofenac – DFN, pentachlorophenol – PCP and octylphenol – OP) on two kinds of carbon nanotubes (single walled carbon nanotubes – SWCNT and single walled carbon nanotubes with amine group – SWCNT-NH2) was investigated, in single and bicomponent solution at pH 5. SWCNT-NH2 had three times lower specific surface area than SWCNT. Significant differences were observed in sorption capacity of SWCNT and SWCNT-NH2 for given chemicals. The sorption uptake changes in the following order: OP > PCP > DFN for SWCNT and DFN > PCP > OP for SWCNT-NH2. A few times higher adsorption of OP on SWCNT came from low OP solubility in water in comparison to PCP and DFN. While, higher adsorption of DFN and PCP on SWCNT-NH2 was a result of electrostatic attraction between dissociated form of these chemicals and positively charged SWCNT-NH2 at pH 5. In adsorption from bicomponent solution, significant competition was observed between PCP and DFN due to similar adsorption mechanism on SWCNT-NH2. Opposite tendency was observed for SWCNT, DFN did not greatly affect adsorption of PCP and OP since they were very easily absorbable by sigma-sigma interaction.https://doi.org/10.1051/e3sconf/20172200076
collection DOAJ
language English
format Article
sources DOAJ
author Kamińska Gabriela
Dudziak Mariusz
Bohdziewicz Jolanta
Kudlek Edyta
spellingShingle Kamińska Gabriela
Dudziak Mariusz
Bohdziewicz Jolanta
Kudlek Edyta
Single and competitive adsorption of OMPs by carbon nanotubes – mechanism and fitting models
E3S Web of Conferences
author_facet Kamińska Gabriela
Dudziak Mariusz
Bohdziewicz Jolanta
Kudlek Edyta
author_sort Kamińska Gabriela
title Single and competitive adsorption of OMPs by carbon nanotubes – mechanism and fitting models
title_short Single and competitive adsorption of OMPs by carbon nanotubes – mechanism and fitting models
title_full Single and competitive adsorption of OMPs by carbon nanotubes – mechanism and fitting models
title_fullStr Single and competitive adsorption of OMPs by carbon nanotubes – mechanism and fitting models
title_full_unstemmed Single and competitive adsorption of OMPs by carbon nanotubes – mechanism and fitting models
title_sort single and competitive adsorption of omps by carbon nanotubes – mechanism and fitting models
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2017-01-01
description The adsorption of three organic micropollutants (diclofenac – DFN, pentachlorophenol – PCP and octylphenol – OP) on two kinds of carbon nanotubes (single walled carbon nanotubes – SWCNT and single walled carbon nanotubes with amine group – SWCNT-NH2) was investigated, in single and bicomponent solution at pH 5. SWCNT-NH2 had three times lower specific surface area than SWCNT. Significant differences were observed in sorption capacity of SWCNT and SWCNT-NH2 for given chemicals. The sorption uptake changes in the following order: OP > PCP > DFN for SWCNT and DFN > PCP > OP for SWCNT-NH2. A few times higher adsorption of OP on SWCNT came from low OP solubility in water in comparison to PCP and DFN. While, higher adsorption of DFN and PCP on SWCNT-NH2 was a result of electrostatic attraction between dissociated form of these chemicals and positively charged SWCNT-NH2 at pH 5. In adsorption from bicomponent solution, significant competition was observed between PCP and DFN due to similar adsorption mechanism on SWCNT-NH2. Opposite tendency was observed for SWCNT, DFN did not greatly affect adsorption of PCP and OP since they were very easily absorbable by sigma-sigma interaction.
url https://doi.org/10.1051/e3sconf/20172200076
work_keys_str_mv AT kaminskagabriela singleandcompetitiveadsorptionofompsbycarbonnanotubesmechanismandfittingmodels
AT dudziakmariusz singleandcompetitiveadsorptionofompsbycarbonnanotubesmechanismandfittingmodels
AT bohdziewiczjolanta singleandcompetitiveadsorptionofompsbycarbonnanotubesmechanismandfittingmodels
AT kudlekedyta singleandcompetitiveadsorptionofompsbycarbonnanotubesmechanismandfittingmodels
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