Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Marine & Wildlife Nanoplastics Sign in to save

Heteroaggregation kinetics of oppositely charged nanoplastics in aquatic environments: Effects of particle ratio, solution chemistry, and interaction sequence

Journal of Hazardous Materials 2024 13 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Jiahui Ruan, Yaqi Zeng, Jiahui Ruan, Lihua Li, Yongtao Li, Yaqi Zeng, Weilin Huang Jiahui Yang, Jiahui Yang, Jiahui Yang, Jiahui Yang, Jiahui Yang, Lihua Li, Jiahui Ruan, Chengyu Chen, Chengyu Chen, Chengyu Chen, Weilin Huang Jiahui Ruan, Yaqi Zeng, Weilin Huang Xingyan Wang, Chengyu Chen, Yaqi Zeng, Xingyan Wang, Weilin Huang Cuihua Liang, Yaqi Zeng, Chengyu Chen, Cuihua Liang, Yaqi Zeng, Weilin Huang Yongtao Li, Lihua Li, Lihua Li, Xingyan Wang, Yaqi Zeng, Xingyan Wang, Yaqi Zeng, Chengyu Chen, Yongtao Li, Weilin Huang Yongtao Li, Weilin Huang Junhua Wang, Yongtao Li, Yongtao Li, Weilin Huang Yongtao Li, Weilin Huang Weilin Huang Yongtao Li, Yongtao Li, Weilin Huang Yongtao Li, Weilin Huang Weilin Huang Weilin Huang Weilin Huang Weilin Huang Chengyu Chen, Chengyu Chen, Chengyu Chen, Yongtao Li, Yongtao Li, Yongtao Li, Yongtao Li, Yongtao Li, Chengyu Chen, Weilin Huang Yongtao Li, Yongtao Li, Weilin Huang Weilin Huang Chengyu Chen, Yongtao Li, Weilin Huang Yongtao Li, Chengyu Chen, Yongtao Li, Chengyu Chen, Weilin Huang Chengyu Chen, Chengyu Chen, Yongtao Li, Yongtao Li, Yongtao Li, Chengyu Chen, Chengyu Chen, Weilin Huang

Summary

Researchers investigated how oppositely charged nanoplastics clump together (heteroaggregation) in water under varying pH, salt, and natural organic matter conditions, finding that electrostatic attraction drives aggregation but humic acid retards it more than sodium alginate, while the sequence and timing of chemical interactions also significantly alters the final aggregation behavior.

Interactions between positively charged amino-modified (APS) and negatively charged bare (BPS) polystyrene nanoplastics may cause heteroaggregation in aquatic environments. This study investigated the effects of particle concentration ratio, solution chemistry [electrolytes, pH, and natural organic matter (NOM)], and interaction sequence on their heteroaggregation kinetics. In the absence of electrolytes and NOM, the APS/BPS ratio for attaining maximum heteroaggregation rate (k) increased from APS/BPS= 3/7 to APS/BPS= 1/1 as pH increased from 4 to 10, indicating that electrostatic interactions dominated heteroaggregation. In the absence of NOM, k ranked APS/BPS= 2/3 > APS/BPS= 1/1 > APS/BPS= 3/2. Colloidal stability decreased linearly as pH increased from 4 to 8 at APS/BPS= 1/1, while diffusion-limited heteroaggregation persisted at pH 10. In NaCl solution, humic acid (HA) retarded heteroaggregation more effectively than sodium alginate (SA) via steric hindrance and weakening electrostatic interactions, following the modified Derjaguin-Landau-Verwey-Overbeek (MDLVO) theory. Compared with simultaneous interactions among APS, BPS, NaCl, and NOM, the NOM retardation effects on heteroaggregation weakened if delaying its interaction with others. In CaCl solution, the effects of NOM on heteroaggregation depended on counterbalance among charge screening, steric hindrance, and calcium bridging. These findings highlight the important role of heteroaggregation between oppositely charged nanoplastics on their fate and transport in aquatic environments.

Read via DOI

Share this paper

Post Share Share Pin Email