Zhan, Jingjing Kolesnichenko, Igor Sunkara, Bhanukiran He, Jibao McPherson, Gary L. Piringer, Gerhard John, Vijay T. Multifunctional Iron−Carbon Nanocomposites through an Aerosol-Based Process for the In Situ Remediation of Chlorinated Hydrocarbons Spherical iron−carbon nanocomposites were developed through a facile aerosol-based process with sucrose and iron chloride as starting materials. These composites exhibit multiple functionalities relevant to the in situ remediation of chlorinated hydrocarbons such as trichloroethylene (TCE). The distribution and immobilization of iron nanoparticles on the surface of carbon spheres prevents zerovalent nanoiron aggregation with maintenance of reactivity. The aerosol-based carbon microspheres allow adsorption of TCE, thus removing dissolved TCE rapidly and facilitating reaction by increasing the local concentration of TCE in the vicinity of iron nanoparticles. The strongly adsorptive property of the composites may also prevent release of any toxic chlorinated intermediate products. The composite particles are in the optimal range for transport through groundwater saturated sediments. Furthermore, those iron−carbon composites can be designed at low cost, the process is amenable to scale-up for in situ application, and the materials are intrinsically benign to the environment. composite;zerovalent nanoiron aggregation;chlorinated;material;TCE;iron nanoparticles 2011-03-01
    https://acs.figshare.com/articles/journal_contribution/Multifunctional_Iron_Carbon_Nanocomposites_through_an_Aerosol_Based_Process_for_the_In_Situ_Remediation_of_Chlorinated_Hydrocarbons/2688838
10.1021/es103493e.s001