Polyoxometalates entrapped in sol-gel matrices as electron exchange columns and catalysts for the reductive de-halogenation of halo-organic acids in water

Neelam; Dan Meyerstein; Ariela Burg; Dror Shamir; Yael Albo

doi:10.1080/00958972.2018.1515926

Polyoxometalates entrapped in sol-gel matrices as electron exchange columns and catalysts for the reductive de-halogenation of halo-organic acids in water

Neelam, Dan Meyerstein, Ariela Burg, Dror Shamir, Yael Albo

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Halo-organic acids in aqueous solutions are widespread pollutants. An enormous number of technologies have been proposed for their elimination. In this context, reducing electron exchange columns seem to be an optimal solution for their degradation, as they do not introduce any new chemical into the solution to be purified. The electron exchange columns used in this study consist of entrapped polyoxometalates (POMs) in silica sol-gel matrices that were used as the reducing medium for the reductive de-halogenation of Br₃CCO₂ ⁻, Cl₃CCO₂ ⁻, BrCH₂CO₂ ⁻ and ClCH₂CO₂ ⁻. The same matrices were also applied as catalysts for the reduction of the investigated halo-acetates by BH₄ ⁻. Surprisingly, the results indicate that the mechanisms of de-halogenation of Br₃CCO₂ ⁻, Cl₃CCO₂ ⁻, BrCH₂CO₂ ⁻ and ClCH₂CO₂ ⁻ differ from each other.

Original language	English
Pages (from-to)	3180-3193
Number of pages	14
Journal	Journal of Coordination Chemistry
Volume	71
Issue number	19
DOIs	https://doi.org/10.1080/00958972.2018.1515926
State	Published - 2 Oct 2018

Keywords

Polyoxometalate
de-halogenation mechanisms
halo-acetic acids
sol-gel
water treatment

ASJC Scopus subject areas

Physical and Theoretical Chemistry
Materials Chemistry

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10.1080/00958972.2018.1515926

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title = "Polyoxometalates entrapped in sol-gel matrices as electron exchange columns and catalysts for the reductive de-halogenation of halo-organic acids in water",

abstract = "Halo-organic acids in aqueous solutions are widespread pollutants. An enormous number of technologies have been proposed for their elimination. In this context, reducing electron exchange columns seem to be an optimal solution for their degradation, as they do not introduce any new chemical into the solution to be purified. The electron exchange columns used in this study consist of entrapped polyoxometalates (POMs) in silica sol-gel matrices that were used as the reducing medium for the reductive de-halogenation of Br3CCO2 −, Cl3CCO2 −, BrCH2CO2 − and ClCH2CO2 −. The same matrices were also applied as catalysts for the reduction of the investigated halo-acetates by BH4 −. Surprisingly, the results indicate that the mechanisms of de-halogenation of Br3CCO2 −, Cl3CCO2 −, BrCH2CO2 − and ClCH2CO2 − differ from each other.",

keywords = "Polyoxometalate, de-halogenation mechanisms, halo-acetic acids, sol-gel, water treatment",

author = "Neelam and Dan Meyerstein and Ariela Burg and Dror Shamir and Yael Albo",

note = "Funding Information: This study was supported in part by a grant from the PAZY foundation. Neelam thanks Ariel University for a fellowship during her Ph.D. studies. We are indebted to Prof. Ira Weinstock for providing the POM, H5AlW12O40. Publisher Copyright: {\textcopyright} 2018, {\textcopyright} 2018 Informa UK Limited, trading as Taylor & Francis Group.",

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doi = "10.1080/00958972.2018.1515926",

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T1 - Polyoxometalates entrapped in sol-gel matrices as electron exchange columns and catalysts for the reductive de-halogenation of halo-organic acids in water

AU - Neelam,

AU - Meyerstein, Dan

AU - Burg, Ariela

AU - Shamir, Dror

AU - Albo, Yael

N1 - Funding Information: This study was supported in part by a grant from the PAZY foundation. Neelam thanks Ariel University for a fellowship during her Ph.D. studies. We are indebted to Prof. Ira Weinstock for providing the POM, H5AlW12O40. Publisher Copyright: © 2018, © 2018 Informa UK Limited, trading as Taylor & Francis Group.

PY - 2018/10/2

Y1 - 2018/10/2

N2 - Halo-organic acids in aqueous solutions are widespread pollutants. An enormous number of technologies have been proposed for their elimination. In this context, reducing electron exchange columns seem to be an optimal solution for their degradation, as they do not introduce any new chemical into the solution to be purified. The electron exchange columns used in this study consist of entrapped polyoxometalates (POMs) in silica sol-gel matrices that were used as the reducing medium for the reductive de-halogenation of Br3CCO2 −, Cl3CCO2 −, BrCH2CO2 − and ClCH2CO2 −. The same matrices were also applied as catalysts for the reduction of the investigated halo-acetates by BH4 −. Surprisingly, the results indicate that the mechanisms of de-halogenation of Br3CCO2 −, Cl3CCO2 −, BrCH2CO2 − and ClCH2CO2 − differ from each other.

AB - Halo-organic acids in aqueous solutions are widespread pollutants. An enormous number of technologies have been proposed for their elimination. In this context, reducing electron exchange columns seem to be an optimal solution for their degradation, as they do not introduce any new chemical into the solution to be purified. The electron exchange columns used in this study consist of entrapped polyoxometalates (POMs) in silica sol-gel matrices that were used as the reducing medium for the reductive de-halogenation of Br3CCO2 −, Cl3CCO2 −, BrCH2CO2 − and ClCH2CO2 −. The same matrices were also applied as catalysts for the reduction of the investigated halo-acetates by BH4 −. Surprisingly, the results indicate that the mechanisms of de-halogenation of Br3CCO2 −, Cl3CCO2 −, BrCH2CO2 − and ClCH2CO2 − differ from each other.

KW - Polyoxometalate

KW - de-halogenation mechanisms

KW - halo-acetic acids

KW - sol-gel

KW - water treatment

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ER -

Polyoxometalates entrapped in sol-gel matrices as electron exchange columns and catalysts for the reductive de-halogenation of halo-organic acids in water

Abstract

Keywords

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