Photo-oxidation of Micro- and Nanoplastics: Physical, Chemical, and Biological Effects in Environments

Xu, Yanghui; Ou, Qin; van der Hoek, Jan Peter; Liu, Gang; Lompe, Kim Maren

doi:10.1021/acs.est.3c07035

Cited by 6 publications

(2 citation statements)

References 242 publications

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“…On the one hand, reactive species were involved in the destruction of C–H, C–OH, C–C, and benzene rings, implying that a considerable portion of reactive species was consumed during the aging process prior to generation of CO. This phenomenon has also been reported in many studies. , On the other hand, combined with previous studies on DOM presenting multiple roles in organic pollutants photoaging, although the photosensitizing effect and redox cycle of DOM can induce a high level of reactive species production, reactive species scavenging brought about by its own moiety also exists simultaneously . Therefore, in PSMP photoaging, partial reactive species needed to counteract the scavenging effect so they could not directly participate in the PSMP functional group changes.…”

Section: Resultsmentioning

confidence: 64%

“…Regarding 3 DOM* (Figure F,I), the FA <1kDa exhibited a faster production rate, rapidly accumulating to the highest level within 2 h, and the steady-state concentration of 3 DOM* ([ 3 DOM*] ss ) was the highest among all tested fractions, at 1.59 × 10 –6 M (Figure S11F). Overall, the yield of reactive species was slightly higher in FA than in HA, which could be attributed to the fact that FA with abundant phenols or quinones exposed to UV irradiation can absorb photons more rapidly and promote electron shuttling between different interfaces according to the previous study, potentially providing higher quantum yields of reactive species to attack PSMP surface structures faster. Determination of •OH, 1 O 2 , and 3 DOM* during photoaging of PSMPs demonstrated that FA <1kDa exhibited superior photoactivity, and the yield of reactive species of DOM was inversely proportional to MW, which was consistent with previous reports. , Interestingly, the growth of reactive species was much larger than that of CI, possibly indicating a more complex role and fate of reactive species within the coincubation system.…”

Section: Resultsmentioning

confidence: 73%

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Molecular Weights of Dissolved Organic Matter Significantly Affect Photoaging of Microplastics

Pan,

Zhang,

Qiu

et al. 2024

Environ. Sci. Technol.

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The fate of ubiquitous microplastics (MPs) is largely influenced by dissolved organic matter (DOM) in aquatic environments, which has garnered significant attention. The reactivity of DOM is reported to be greatly regulated by molecular weights (MWs), yet little is known about the effects of different MW DOM on MP aging. Here, the aging behavior of polystyrene MPs (PSMPs) in the presence of different MW fulvic acids (FAs) and humic acids (HAs) was systematically investigated. Under ultraviolet (UV) illumination, O/C of PSMPs aged for 96 h surged from 0.008 to 0.146 in the lower MW FA (FA <1kDa ) treatment, suggesting significant PSMP aging. However, FA exhibited a stronger effect on facilitating PSMP photoaging than HA, which can be attributed to the fact that FA <1kDa contains more quinone and phenolic moieties, demonstrating a higher redox capacity. Meanwhile, compared to other fractions, FA <1kDa was more actively involved in the increase of different reactive species yields by 50−290%, including •OH, which plays a key role in PSMP photoaging, and contributed to a 25% increase in electron-donating capacity (EDC). This study lays a theoretical foundation for a better understanding of the environmental fate of MPs.

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Section: Resultsmentioning

confidence: 64%

Section: Resultsmentioning

confidence: 73%

Molecular Weights of Dissolved Organic Matter Significantly Affect Photoaging of Microplastics

Pan,

Zhang,

Qiu

et al. 2024

Environ. Sci. Technol.

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Insights into the controlling factors of the transport of tire wear particles in saturated porous media: The facilitative role of aging and fulvic acid

Zi,

Wu,

Zhang

et al. 2024

Science of The Total Environment

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Dissolved Black Carbon Facilitates the Photodegradation of Microplastics via Molecular Weight-Dependent Generation of Reactive Intermediates

Ou,

Xu,

Wang

et al. 2024

Environ. Sci. Technol.

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Photodegradation of microplastics (MPs) induced by sunlight plays a crucial role in determining their transport, fate, and impacts in aquatic environments. Dissolved black carbon (DBC), originating from pyrolyzed carbon, can potentially mediate the photodegradation of MPs owing to its potent photosensitization capacity. This study examined the impact of pyrolyzed wood derived DBC (5 mg C/L) on the photodegradation of polystyrene (PS) MPs in aquatic solutions under UV radiation. It revealed that the photodegradation of PS MPs primarily occurred at the benzene ring rather than the aliphatic segments due to the fast attack of hydroxyl radical (•OH) and singlet oxygen (1O2) on the benzene ring. The photosensitivity of DBC accelerated the degradation of PS MPs, primarily attributed to the increased production of •OH, 1O2, and triplet-excited state DBC (3DBC*). Notably, DBC-mediated photodegradation was related to its molecular weight (MW) and chemical properties. Low MW DBC (<3 kDa) containing more carbonyl groups generated more •OH and 1O2, accelerating the photodegradation of MPs. Nevertheless, higher aromatic phenols in high MW DBC (>30 kDa) scavenged •OH and generated more O2•–, inhibiting the photodegradation of MPs. Overall, this study offered valuable insights into UV-induced photodegradation of MPs and highlighted potential impacts of DBC on the transformation of MPs.

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Photo-oxidation of Micro- and Nanoplastics: Physical, Chemical, and Biological Effects in Environments

Cited by 6 publications

References 242 publications

Molecular Weights of Dissolved Organic Matter Significantly Affect Photoaging of Microplastics

Molecular Weights of Dissolved Organic Matter Significantly Affect Photoaging of Microplastics

Insights into the controlling factors of the transport of tire wear particles in saturated porous media: The facilitative role of aging and fulvic acid

Dissolved Black Carbon Facilitates the Photodegradation of Microplastics via Molecular Weight-Dependent Generation of Reactive Intermediates

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