TY - JOUR
T1 - Differential Photoaging Effects on Colored Nanoplastics in Aquatic Environments
T2 - Physicochemical Properties and Aggregation Kinetics
AU - Su, Jiana
AU - Ruan, Jiahui
AU - Luo, Dan
AU - Wang, Jinjin
AU - Huang, Zhujian
AU - Yang, Xingjian
AU - Zhang, Yulong
AU - Zeng, Qiaoyun
AU - Li, Yongtao
AU - Huang, Weilin
AU - Cui, Lihua
AU - Chen, Chengyu
N1 - Publisher Copyright:
© 2023 American Chemical Society
PY - 2023/10/17
Y1 - 2023/10/17
N2 - Nanoplastics (NPs) have different colors, which could affect their photoaging processes in aquatic environments. This study investigated the effects of irradiation on physicochemical properties and aggregation kinetics of five colored NPs. Photodegradation rates and photooxidation degrees ranked white ≈ yellow > red > blue ≈ black NPs, indicating that NPs with longer color wavelengths photoaged faster. The discoloration process followed color fading (2-14 days, except for white NPs), yellowing (10-16 days), yellow fading (18 days), and turning transparent (20-22 days). White NPs exhibited a different photoaging sequence (C-H → C-OH → C═O → O-C═O) from others. Photodegradation was mainly controlled by singlet oxygen, producing 13 chemicals that were mostly organic acids. The overall colloidal stability of pristine NPs ranked blue > yellow > red > black > white. Irradiation for 16 days retarded aggregation of white and other NPs in NaCl solution, raising the critical coagulation concentration (CCC) by 82.14 and 0.85-7.90%, respectively. Contrarily, irradiation promoted aggregation in CaCl2 solution by reducing the CCC of white (67.37%) and other (33.33-37.58%) NPs. The findings demonstrate that colored NPs underwent photoaging processes different from white/transparent NPs, which were focused by previous work, highlighting the important role of color in their environmental fate and transport.
AB - Nanoplastics (NPs) have different colors, which could affect their photoaging processes in aquatic environments. This study investigated the effects of irradiation on physicochemical properties and aggregation kinetics of five colored NPs. Photodegradation rates and photooxidation degrees ranked white ≈ yellow > red > blue ≈ black NPs, indicating that NPs with longer color wavelengths photoaged faster. The discoloration process followed color fading (2-14 days, except for white NPs), yellowing (10-16 days), yellow fading (18 days), and turning transparent (20-22 days). White NPs exhibited a different photoaging sequence (C-H → C-OH → C═O → O-C═O) from others. Photodegradation was mainly controlled by singlet oxygen, producing 13 chemicals that were mostly organic acids. The overall colloidal stability of pristine NPs ranked blue > yellow > red > black > white. Irradiation for 16 days retarded aggregation of white and other NPs in NaCl solution, raising the critical coagulation concentration (CCC) by 82.14 and 0.85-7.90%, respectively. Contrarily, irradiation promoted aggregation in CaCl2 solution by reducing the CCC of white (67.37%) and other (33.33-37.58%) NPs. The findings demonstrate that colored NPs underwent photoaging processes different from white/transparent NPs, which were focused by previous work, highlighting the important role of color in their environmental fate and transport.
KW - colloidal stability
KW - discoloration and dissolution
KW - freshwater and seawater
KW - photodegradation products
KW - photooxidation rates
KW - pigments and dyes
KW - sunlight irradiation
KW - yellowing and fading
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U2 - 10.1021/acs.est.3c04808
DO - 10.1021/acs.est.3c04808
M3 - Article
C2 - 37747788
AN - SCOPUS:85174803210
SN - 0013-936X
VL - 57
SP - 15656
EP - 15666
JO - Environmental Science and Technology
JF - Environmental Science and Technology
IS - 41
ER -