Sulfide Induces Physical Damages and Chemical Transformation of Microplastics via Radical Oxidation and Sulfide Addition
作者:Mengting Zhao, Tong Zhang, Xinlin Yang, Xinlei Liu, Dongqiang Zhu, Wei Chen*
關鍵字:Polymer degradation
論文來源:期刊
具體來源:Water Research, 197 (1), 17100 (1-10) (2021). DOI: 10.1016/j.watres.2021.117100
發表時間:2021年
Transformation of microplastics in aquatic environments and engineered systems (e.g., wastewater treat�ment plants) significantly affects their transport, fate and effects. Here, we present the counterintuitive finding that sulfide, a prevalent nucleophile and reductant, can result in oxidation of microplastics, in addition to sulfide addition. Treating four model microplastics (thermoplastic polyurethane, polystyrene, polyethylene terephthalate and polyethylene) with 0.1 mM sulfide in a Tris-buffer solution (pH 7.2, 25 °C) resulted in physical damages (embrittlement and cracking) and chemical transformation (increased O/C ratio and formation of C–S bonds) of the materials. Pre-aging of the microplastics with O3 or UV
treatment had varied effects on their reactivities toward sulfide, depending on the specific structural and surface chemistry properties of the polymers. Electron paramagnetic resonance and radical trap�ping/quenching experiments showed that sulfide underwent spontaneous oxidation to form ?OH radicals, which acted as the primary oxidant to attack the carbon atoms in the polymer chains, leading to surface oxidation and chain scission. Notably, sulfide addition, verified with X-ray photoelectron spectroscopy and 13C-nuclear magnetic resonance spectroscopy analyses, likely contributed to the physicochemical transformation of microplastics together with radical oxidation in a synergistic manner. The findings unravel an
important transformation route (and a potential source) of microplastics in the environment.