Facile synthesis of pyrite FeS2 on carbon spheres for high-efficiency Fenton-like reaction

Abstract

Designing iron-based catalysts for Fenton-like reactions with peroxymonosulfate (PMS) as oxidants have attracted growing attentions. Herein, pyrite FeS₂ supported on carbon spheres (FeS₂@C) is synthesized by a facile low-temperature method. The FeS₂@C/PMS system can degrade carbamazepine (CBZ) effectively in a wide pH range. Sulfate radicals (SO₄^·-), hydroxyl radicals (·OH), superoxide radical (O₂^·-), and singlet oxygen (¹O₂) are the responsible reactive oxygen species (ROSs) for CBZ degradation. Moreover, in the simulated fixed-bed reactor, the FeS₂@C/PMS system can maintain a high CBZ removal ratio of >95% for than 8 h, exhibiting its excellent stability. The outstanding performance of FeS₂@C/PMS system is attributed to the presence of carbon spheres and lattice S^2-, which together promote the Fe(III)/Fe(II) redox cycle. The FeS₂@C is a promising catalyst due to its facile synthesis, low cost, high efficiency, and excellent stability to activate PMS for organics degradation.

Keywords: Carbon spheres; Fe(III)/Fe(II) cycle; Fixed-bed reactor; Long-term stability; Pyrite FeS(2).