To enhance the removal of redox-reactive contaminants, biochars including FeS and Zn(0) were developed pyrolysis. These biochars significantly promoted the removal of 2,4-dichlorophenol (DCP) by means of sorption and reduction. Compared to direct reduction with FeS and Zn(0), the formation of reduction intermediates and product was enhanced from 21% and 22% of initial DCP concentration to 41% and 52%, respectively. 2,4-Dinitrotoluene (DNT), chromate (CrO ) and selenate (SeO ) were also reductively transformed to reduction products (, 2,4-diaminotoluene [DAT], Cr, and selenite [SeO ]) after they sorbed onto the biochars including FeS and Zn(0). Mass recovery as DAT, Cr and selenite was 4-20%, 1-3%, and 10-30% under the given conditions. Electrochemical and X-ray analyses confirmed the reduction capability of the biochars including FeS and Zn(0). Fe and S in the FeS-biochar did not effectively promote the reductive transformation of the contaminants. Contrastingly, the stronger reducer Zn(0) yielded faster reductive transformation of contaminants over the Zn(0)-containing biochar, while not releasing high concentrations of Zn into the aqueous phase. Our results suggest that biochars including Zn(0) may be suitable as dual sorbents/reductants to remediate redox-reactive contaminants in natural environments.
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| http://dx.doi.org/10.1039/d0ra05571a | DOI Listing |
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