ZIF-derived Co nanoparticles embedded into N-doped carbon nanotube composites for highly efficient electrochemical detection of nitrofurantoin in food

Designing efficient and sensitive methods for the detection of nitrofurantoin (NFT) residues is of great importance for food safety and environmental protection. Herein, a composite with cobalt nanoparticles encapsulated in nitrogen-doped carbon nanotube (N/ [email protected] @CC-II) was synthesized by in-situ growth and sublimation-gas phase transformation strategy and used to establish an ultrasensitive electrochemical sensor for NFT determination. The N/ [email protected] @CC-II sensor exhibits uniform N doping, fine hollow structure, and abundant active metal sites, which lays a solid foundation for the ultra-sensitive detection of NFT. Benefiting from these advantages, the N/ [email protected] @CC-II exhibits excellent sensitivity (8.19 μA μM −1  cm −2 ) and low detection limit (18.41 nM) for NFT detection. The practical feasibility of N/ [email protected] @CC-II was also demonstrated by the determination of NFT in milk and tap water samples. This study may open up new opportunities for the application of N -doped carbon nanotube materials encapsulating transition metals.