Abstract
Reduction of nitrobenzene with NaBH4 using zero-valent iron nanoparticles (ZVI-NPs) and NiCl2∙6H2O incorporated in organically modified hybrid silica matrices as ZVI@ORMOSIL and Ni(II)@ORMOSIL catalysts is proposed as a remediation strategy. Ni(II)@ORMOSIL is prepared by ion-exchanging H+ of the ORMOSIL matrix with NiII. Ni(II)@ORMOSIL is a pre-catalyst that undergoes reduction by NaBH4 by an in-situ reaction and promotes nitrobenzene reduction by the unconsumed NaBH4, leading to sparing use of the catalyst. Ni(II)@ORMOSIL undergoes color change from green to black in this process, returning to a green hue after washing and drying. Nitrobenzene reductions were examined in aqueous acetonitrile solvent mixtures, and the reduction cascade produced the reaction end-products with catalytic implications. Plausible mechanisms of ZVI@ORMOSIL and Ni(II)@ORMOSIL catalyzed reductions of nitrobenzene are discussed. This work is the first to report M(II)@ORMOSIL pre-catalysts for in-situ reduction of nitrobenzene, and expands the scope of the ORMOSIL series of catalysts for the reduction of polluting compounds. This approach enables the development of catalysts that use very low concentrations of transition metal cations.
Highlights
Published: 18 November 2021Nitrobenzene, nitrobennitrobenThe zene (NB), is an abundant environmental pollutant
The presence of Zero Valent Iron (ZVI) in the bulk of the ZVI@organically modified silica matrices (ORMOSIL) matrix was recently verified by XRF analysis
The results obtained in this study indicate that nickel ion-exchanged ORMOSIL matrices are efficient pre-catalysts for the catalytic reduction of NB to aniline by BH4 −, even in aqueous media
Summary
Nitrobenzene, NB, is an abundant environmental pollutant. It is used in the synthesis of explosives, organophosphate pesticides, herbicides [1], dyes, fungicides [2], lubricating motor oils, solvents, polishes [3,4], drugs, and synthetic rubber [3]. NB is carcinogenic via all routes of exposure (skin, oral, inhalation) [3,5,6]. Nitrobenzene is a representative of the nitroarene group It is used as a probe compound to study the catalytic reduction of nitroarenes. The nitrogen atom oxidation state (III) is reduced to (-III);
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