Generation of microplastic particles during degradation of polycarbonate films in various aqueous media and their characterization.

A 250-day batch experiment was conducted to examine the generation of microplastic particles from degradation of polycarbonate films in 3 aqueous media of environmental relevance. The microplastic particles generated from the experiment were characterized by SEM/EDS and micro-FTIR analysis. Hydrolysis was responsible for the cleavage of carbon-oxygen bonds in the carbonate group of polycarbonate backbone and detachment of micro-sized plastic particles from the PC film surfaces. The deionized water treatment had the highest concentration of total organic carbon and the greatest number of microplastic particles among the three treatments. Either elevated acidity or the presence of hydroxyl radical did not enhance the hydrolytic degradation of the PC films and generation of microplastic particles though hydroxyl radical caused oxidative degradation of polycarbonate by attacking the organic group but not the carbonate group. Bisphenol A was not detected in any of the treatments. The microplastic particles generated from the current experiment were highly irregular, which may have different physicochemical and toxic behaviours from the spheric synthetic ones that were frequently used in toxicity experiments. [Display omitted] • Experiment to examine weathering of polycarbonate (PC) films in aqueous media. • Elevated acidity or hydroxyl radical did not enhance the degradation of PC films. • Hydrolysis was responsible for generating microplastics with irregular shapes. • Alkanes but not bisphenol A was detected in solutions in contact with the PC films. • Implications for PC degradation under conditions of environmental relevance. [ABSTRACT FROM AUTHOR]