High-density Co-Nx sites anchored on biomass-based carbon nanotubes for efficient removal of plant viruses in water

In this study, we selected rice straw, wheat straw and corn cob as raw materials to successfully prepare cobalt-nitrogen co-doped biomass-based carbon nanotubes composites (BM@CoNCNTs) with Co-Nx sites highly dispersed on porous biochar carrier, which could effectively activate peroxymonosulfate (PMS) to remove tobacco mosaic virus (TMV) in water. Particularly, BM@CoNCNTs-CC, with its confined carbon nanotubes and high-density Co-Nx sites, enhanced the Co2+/Co3+ cycle and direct adsorption of PMS to generate Co(IV)=O and 1O2, playing a dominant role. This led to the effective disruption of TMV coat protein and degradation of its genome within 5min, achieving up to 6 log10 removal efficiency. Additionally, BM@CoNCNTs-CC/PMS system maintained efficient catalytic removal performance even in complex water matrices (river water and tap water). Overall, our research not only elucidates the production of efficient biomass-based catalysts for environmental remediation, but also highlights the application potential of biomass-based carbon nanotubes composites enriched with Co-Nx sites.