Compatible Adsorption of Strontium and Zinc Ions as Well as Vitamins on Zeolites

Compatible Adsorption of Strontium and Zinc Ions as Well as Vitamins on Zeolites

Adsorbents based on natural Sokyrnytsky clinoptilolite have been prepared by treating the base sorbent with aqueous solutions of different salts or acids (HCl, NH 4 OH or NaCl). The separate adsorption of Zr 2+ and Sr 2+ ions and of vitamin B 1 together with the joint adsorption of Sr 2+ ions and vi...

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Main Authors: V. Gomonaj, P. Gomonaj, N. Golub, K. Szekeresh, B. Charmas, R. Leboda
Format: Article
Language:English
Published: Hindawi - SAGE Publishing 2000-05-01
Series:Adsorption Science & Technology
Online Access:https://doi.org/10.1260/0263617001493440
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spelling doaj-ad7c21f8b19344f78a10b1da66fc35f52021-04-02T17:51:53ZengHindawi - SAGE PublishingAdsorption Science & Technology0263-61742048-40382000-05-011810.1260/0263617001493440Compatible Adsorption of Strontium and Zinc Ions as Well as Vitamins on ZeolitesV. Gomonaj0P. Gomonaj1N. Golub2K. Szekeresh3B. Charmas4R. Leboda5 Department of Physical & Colloidal Chemistry, Uzhgorod State University, Pidhirna Str. 46, 294000 Uzhgorod, Ukraine Department of Physical & Colloidal Chemistry, Uzhgorod State University, Pidhirna Str. 46, 294000 Uzhgorod, Ukraine Department of Physical & Colloidal Chemistry, Uzhgorod State University, Pidhirna Str. 46, 294000 Uzhgorod, Ukraine Department of Physical & Colloidal Chemistry, Uzhgorod State University, Pidhirna Str. 46, 294000 Uzhgorod, Ukraine Department of Chemical Physics, Faculty of Chemistry, Maria Curie-Sklodowska University, pl. Marii Curie-Sklodowskiej 3, 20-031 Lublin, Poland Department of Chemical Physics, Faculty of Chemistry, Maria Curie-Sklodowska University, pl. Marii Curie-Sklodowskiej 3, 20-031 Lublin, PolandAdsorbents based on natural Sokyrnytsky clinoptilolite have been prepared by treating the base sorbent with aqueous solutions of different salts or acids (HCl, NH 4 OH or NaCl). The separate adsorption of Zr 2+ and Sr 2+ ions and of vitamin B 1 together with the joint adsorption of Sr 2+ ions and vitamin B 1 has been investigated on the prepared samples. The adsorption isotherms of the cations were studied both against concentration and time, when superposition of the adsorption and desorption curves was observed. This suggests the possibility of using such adsorbents for the isolation of heavy metal ions from human organisms without simultaneous loss of vitamin B 1 .https://doi.org/10.1260/0263617001493440
collection DOAJ
language English
format Article
sources DOAJ
author V. Gomonaj
P. Gomonaj
N. Golub
K. Szekeresh
B. Charmas
R. Leboda
spellingShingle V. Gomonaj
P. Gomonaj
N. Golub
K. Szekeresh
B. Charmas
R. Leboda
Compatible Adsorption of Strontium and Zinc Ions as Well as Vitamins on Zeolites
Adsorption Science & Technology
author_facet V. Gomonaj
P. Gomonaj
N. Golub
K. Szekeresh
B. Charmas
R. Leboda
author_sort V. Gomonaj
title Compatible Adsorption of Strontium and Zinc Ions as Well as Vitamins on Zeolites
title_short Compatible Adsorption of Strontium and Zinc Ions as Well as Vitamins on Zeolites
title_full Compatible Adsorption of Strontium and Zinc Ions as Well as Vitamins on Zeolites
title_fullStr Compatible Adsorption of Strontium and Zinc Ions as Well as Vitamins on Zeolites
title_full_unstemmed Compatible Adsorption of Strontium and Zinc Ions as Well as Vitamins on Zeolites
title_sort compatible adsorption of strontium and zinc ions as well as vitamins on zeolites
publisher Hindawi - SAGE Publishing
series Adsorption Science & Technology
issn 0263-6174
2048-4038
publishDate 2000-05-01
description Adsorbents based on natural Sokyrnytsky clinoptilolite have been prepared by treating the base sorbent with aqueous solutions of different salts or acids (HCl, NH 4 OH or NaCl). The separate adsorption of Zr 2+ and Sr 2+ ions and of vitamin B 1 together with the joint adsorption of Sr 2+ ions and vitamin B 1 has been investigated on the prepared samples. The adsorption isotherms of the cations were studied both against concentration and time, when superposition of the adsorption and desorption curves was observed. This suggests the possibility of using such adsorbents for the isolation of heavy metal ions from human organisms without simultaneous loss of vitamin B 1 .
url https://doi.org/10.1260/0263617001493440
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AT pgomonaj compatibleadsorptionofstrontiumandzincionsaswellasvitaminsonzeolites
AT ngolub compatibleadsorptionofstrontiumandzincionsaswellasvitaminsonzeolites
AT kszekeresh compatibleadsorptionofstrontiumandzincionsaswellasvitaminsonzeolites
AT bcharmas compatibleadsorptionofstrontiumandzincionsaswellasvitaminsonzeolites
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