(744e) Catalytic Effects of Iron on the Carbonization Process of Electrospun Carbon/Iron Composite Fibers and Their Utilization As Adsorbents for Enhanced Cr(VI) Removal from Water

Electrospun polyacrylonitrile / iron nitrate (PAN/Fe(NO₃)₃) nanofibers are prepared, and used as precursor nanofibers for the production of carbon/iron nanocomposite fibers via a carbonization process. The catalytic effects of the metallic iron on morphologies, chemical structures, graphitic carbon growth, and thermal behavior during and after the carbonization process are carefully investigated. The presence of iron nitrate can increase the fiber size and convert the non-woven morphology into a self-aligned assembly. The presence of catalytic iron facilitates the stabilization and the carbonization of the PAN fibers, resulting in an increased carbon yield along with more ordered and larger graphitic crystallites. The developed carbon/iron fibers can be used as an ultra-effective nanoadsorbent for removing toxic Cr(VI) in water. The nanoadsorbent shows a fast and powerful performance in Cr(VI) removal through reduction and adsorption (maximum removal capacity of 445.3 mg/g). The Fe nanoparticles on the carbon nanofiber surface are first oxidized to rapidly reduce the mobile Cr(VI) into the static Cr(III). Subsequently, the diffusion controlled redox reactions between the internal iron of the carbon matrix and the Cr(VI) achieve a sustained continuous Cr(VI) removal for 60 days. Furthermore, this versatile material is magnetic making processing of separation and recycling simple to perform.