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MINI REVIEW ON RECENT ADVANCES OF THE ADSORPTION MECHANISM BETWEEN MICROPLASTICS AND EMERGING CONTAMINANTS FOR CONSERVATION OF WATER

Pharmaceuticals and microplastics have long been identified as water pollutants. Pollutants, including pharmaceutical compounds, have been shown to be transported by microplastics (MPs). In this mini-review, adsorption mechanism between microplastics and emerging contaminants were highlighted. Polye...

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Published in:	International journal of conservation science 2023-10, Vol.14 (4), p.1549-1558
Main Authors:	OSMAN, Mohamed Syazwan, NIZAM, Muhammad Ikhwan, SYED MOHAMAD SHUKRI, Sharifah Nurul Ain, MOHAMAD SHUKRI, Syahirah
Format:	Article
Language:	English
Subjects:	Adsorption Contaminants Hydrogen bonds Hydrophobicity Microplastics Molecular dynamics Nonsteroidal anti-inflammatory drugs Organic contaminants Pharmaceuticals Plastic debris Plastic pollution Pollutants Polyethylene Polyethylenes Polypropylene Reviews Sulfamethazine Toxicity Water conservation Water pollution
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container_title	International journal of conservation science
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creator	OSMAN, Mohamed Syazwan NIZAM, Muhammad Ikhwan SYED MOHAMAD SHUKRI, Sharifah Nurul Ain MOHAMAD SHUKRI, Syahirah
description	Pharmaceuticals and microplastics have long been identified as water pollutants. Pollutants, including pharmaceutical compounds, have been shown to be transported by microplastics (MPs). In this mini-review, adsorption mechanism between microplastics and emerging contaminants were highlighted. Polyethylene is a non-polar, semi-cystalline microplastic with a density of 240 to 244 kg/m3. Besides, Ibuprofen adsorption onto microplastics is pH dependent. Non-polar or neutral compounds that are homogeneous and extremely hydrophobic in nature interact with non-polar and weakly polar plastics such as Polypropylene and Polyethylene. Furthermore, Molecular dynamic (MD) simulation can be employed to study the mechanism of interaction between MPs and contaminants. As a result, some studies show a complex interaction between polyethylene (PE) and certain contaminants, with no significant differences in adsorption energies, but sulfamethazine molecules effectively adsorbed on the MPs surface. In summary, this mini review shed lights on the insights of adsorption mechanism between these compounds.
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subjects	Adsorption Contaminants Hydrogen bonds Hydrophobicity Microplastics Molecular dynamics Nonsteroidal anti-inflammatory drugs Organic contaminants Pharmaceuticals Plastic debris Plastic pollution Pollutants Polyethylene Polyethylenes Polypropylene Reviews Sulfamethazine Toxicity Water conservation Water pollution
title	MINI REVIEW ON RECENT ADVANCES OF THE ADSORPTION MECHANISM BETWEEN MICROPLASTICS AND EMERGING CONTAMINANTS FOR CONSERVATION OF WATER
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