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Nanoplastics can build themselves

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Katrin Drysch, Katrin Drysch, Barbara Kirchner, Barbara Kirchner, Oldamur Hollóczki, Oldamur Hollóczki Leonard Dick, Leonard Dick, Oldamur Hollóczki

Summary

Researchers developed a new computational approach to model how nanoplastic particles form, starting from individual monomer units that aggregate and grow into polymer strands. The simulation produces stable nanoplastic particles with diverse polymer lengths without requiring predefined structural assumptions, providing more realistic model particles for studying nanoplastic toxicity and environmental behavior.

To understand nanoplastics through modeling, e.g., to assess their toxicity and environmental impact, reliable starting structures are required. In this study, we present a new approach to generate nanoplastic particles from classical molecular dynamics simulations. Starting with the initial aggregation of monomer units and allowing for their subsequent growth into polymer strands yields stable aggregates with polymers of diverse length, avoiding the need to define the number of polymer units with a set length a priori. The generated particles are compared to existing model nanoplastics and show agreement in terms of structural characteristics and energetics. The novel approach is computationally efficient and allows for a greater diversity of structures than approaches with predefined chain lengths.

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