Enhanced Fe(ii)/Fe(iii) cycle by boron enabled efficient Cr(vi) removal with microscale zero-valent iron

Abstract

Recently, researchers have been paying much attention to zero-valent iron (ZVI) in the field of pollution remediation. However, the depressed electron transport from the iron reservoir to the iron oxide shell limited the wide application of ZVI. This study was aimed at promoting the performance of microscale ZVI (mZVI) for hexavalent chromium (Cr(VI)) removal by accelerating iron cycle with the addition of boron powder. It was found that the addition of boron powder enhanced the Cr(VI) removal rate by 2.1 times, and the proportion of Cr(III) generation after Cr(VI) removal process also increased, suggesting that boron could promote the reduction pathway of Cr(VI) to Cr(III). By further comparing the Cr(VI) removal percentage of Fe(III) with or without the boron powder, we found that boron powder could promote the percentage removal of Cr(VI) with Fe(III) from 10.1% to 33.6%. Moreover, the presence of boron powder could decrease the potential gap values (ΔE_p) between Fe(III) reduction and Fe(II) oxidation from 0.668 V to 0.556 V, further indicating that the added boron powder could act as an electron sacrificial agent to promote the reduction process of Fe(III) to Fe(II), and thus enhancing the reduction of Cr(VI) with Fe(II). This study shed light on the promoted mechanism of Cr(VI) removal with boron powder and provided an environmentally friendly and efficient approach to enhance the reactivity of the mZVI powder, which would benefit the wide application of mZVI technology in the environmental remediation field.