Spiderweb-inspired all-weather CoS quantum dots confined in N-doped carbon for boosted sulfate radical evolution

Inspired by the working principle of natural spiderweb and long-persistence phosphors, we have synthesized a spiderweb-like nanocomposite in which CoS quantum dots are confined in N-doped carbon frameworks/carbon nanotubes (CNTs). The intimate combination of three-dimensional conductive networks of CoS/CNTs with abundant active sites allows effective capture of sulfate radicals via both physical confinement and chemical bonding and accelerates the redox kinetics significantly. Furthermore, in virtue of the light storing and luminescence behaviors of long-persistence phosphors, the all-weather CoS/CNTs produced can realize an optimum degradation efficiency of 64% under dark conditions. Overall, this work reveals a significant step forward for building a desirable all-weather catalyst with abundant active sites for potential use in degradation under dark conditions.

Automated summary

This study presents the synthesis of a spiderweb-like nanocomposite with CoS quantum dots confined in N-doped carbon frameworks/CNTs. The material effectively captures sulfate radicals and accelerates redox kinetics, achieving an optimum degradation efficiency of 64% under dark conditions. This work represents a significant step forward in building a desirable all-weather catalyst with abundant active sites for potential use in degradation under dark conditions.