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Ifthikar, Jerosha
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article
A self-gating proton-coupled electron transfer reduction of hexavalent chromium by core-shell SBA-Dithiocarbamate chitosan composite.
Abstract
We have proposed a novel strategy for the reduction plus adsorption process for hexavalent chromium elimination by thiol functional hybrid materials through a self-gating process. Namely, we exploit that coating dithiocarbamate chitosan at the surface of SBA-15 affords a core-shell composite that undergoes reversible shape transformations while thiol functional groups acted as proton-coupled electron donor for [Cr<sub>2</sub>O<sub>7</sub>]<sup>2-</sup>. The reduction of [Cr<sub>2</sub>O<sub>7</sub>]<sup>2-</sup> to Cr<sup>3+</sup> was highly efficient and exceptionally rapid, occurred within 5 min with the reduction amount of 899.66 mg of [Cr<sub>2</sub>O<sub>7</sub>]<sup>2-</sup> / 1 g of nanocomposite as a record high value. During the reduction of [Cr<sub>2</sub>O<sub>7</sub>]<sup>2-</sup>, thiol functional groups (-SH) were oxidized into disulfide linkages (SS), and simultaneously chitosan matrix turned into shrunken structure because of the consuming of protons, preventing any release of Cr<sup>3+</sup>. Disulfides can also be reversely reduced to thiols by thiosulphates (S<sub>2</sub>O<sub>3</sub><sup>2-</sup>), which was attractive for regeneration and recyclability of the nanocomposite. Moreover, the [Cr<sub>2</sub>O<sub>7</sub>]<sup>2-</sup> elimination through self-gating process was highly selective against a huge concentration of background electrolytes. This alternative strategy ensures the outstanding and stable performance in applied fields, and could be conducted in various pollution control techniques like permeable reactive barriers.