Advanced understanding of the natural forces accelerating aging and release of black microplastics (tire wear particles) based on mechanism and toxicity analysis
P. Zhang(Institute of Soil and Water Conservation), Hanzhong Jia(Agriculture and Forestry University), Xiwang Tang(Hebei University of Environmental Engineering), Jingzhen Wang(Beibu Gulf University), Ning Qin(Northwest A&F University), Zhuozhi Ouyang(Northwest A&F University), Han Wang(Tongji University), Yiping Shuai(Hunan University)
Cited by 61
Related Papers
Long-term phototransformation of microplastics under simulated sunlight irradiation in aquatic environments: Roles of reactive oxygen species
|Water Research|2020|609
Formation of Environmentally Persistent Free Radicals on Microplastics under Light Irradiation
|Environmental Science & Technology|2019|550
Sorption properties of tylosin on four different microplastics
|Chemosphere|2018|426
Fenton aging significantly affects the heavy metal adsorption capacity of polystyrene microplastics
|The Science of The Total Environment|2020|344
Sorption properties of cadmium on microplastics: The common practice experiment and A two-dimensional correlation spectroscopic study
|Ecotoxicology and Environmental Safety|2019|260