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Article
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AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button.
Tier 2
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Original research — experimental, observational, or case-control study. Direct primary evidence.
Nanoplastics
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Effect of deposition, detachment and aggregation processes on nanoparticle transport in porous media using Monte Carlo simulations
Environmental Science Nano
2021
8 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 30
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Serge Stoll
Gabriela Hul,
Gabriela Hul,
Gabriela Hul,
Gabriela Hul,
Geert Cornelis,
Serge Stoll
Serge Stoll
Serge Stoll
Serge Stoll
Serge Stoll
Marianne Seijo,
Marianne Seijo,
Gabriela Hul,
Geert Cornelis,
Geert Cornelis,
Fabrice Carnal,
Serge Stoll
Serge Stoll
Serge Stoll
Serge Stoll
Serge Stoll
Geert Cornelis,
Serge Stoll
Serge Stoll
Serge Stoll
Geert Cornelis,
Geert Cornelis,
Serge Stoll
Geert Cornelis,
Geert Cornelis,
Serge Stoll
Serge Stoll
Serge Stoll
Geert Cornelis,
Geert Cornelis,
Geert Cornelis,
Geert Cornelis,
Serge Stoll
Serge Stoll
Serge Stoll
Serge Stoll
Serge Stoll
Marianne Seijo,
Serge Stoll
Summary
Researchers developed a 3D computational model to study how engineered nanoparticles move through porous soil and sediment, accounting for deposition, detachment, and aggregation. Similar models can be applied to understand how nanoplastics and small microplastics move through groundwater systems.
A novel off-lattice three-dimensional coarse-grained Monte Carlo model is developed to study engineered nanoparticle (ENP) behavior in porous media.
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