Mechano Chemical Compatibilization of Polyethylene with Graphite by Means of a Suitable Ester

Mechano Chemical Compatibilization of Polyethylene with Graphite by Means of a Suitable Ester

An effective non-covalent compatibilization method for graphite and low-density polyethylene is reported. To obtain this result, pyren-1-yl-stearate (P1S) was synthesized, characterized and mixed with graphite to provide a better dispersion in polyethylene matrix. The P1S improves the dispersion of...

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Bibliographic Details
Published in:Polymers Vol. 15; no. 13; p. 2770
Main Authors: Russo, Simona, Acocella, Maria Rosaria, Mariconda, Annaluisa, Volpe, Valentina, Pantani, Roberto, Longo, Pasquale
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 21-06-2023
MDPI
Subjects:
Aromatic compounds
Ball milling
Carbon
carbon filler
Chloride
Compatibility
compatibilization
Dispersion
Fillers
Graphene
Graphite
Low density polyethylenes
mechanochemistry
Nanocomposites
Nitrogen
non-covalent interactions
Polyethylene
Polyolefins
Radiation
Scanning electron microscopy
Silicon nitride
Solvents
Spectrum analysis
Stability analysis
Stacking
TGA analysis
Thermogravimetric analysis
Canada
Germany
United States > US
Italy
mechanochemistry
non-covalent interactions
TGA analysis
X-ray diffraction
compatibilization
carbon filler
polyethylene
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Summary:An effective non-covalent compatibilization method for graphite and low-density polyethylene is reported. To obtain this result, pyren-1-yl-stearate (P1S) was synthesized, characterized and mixed with graphite to provide a better dispersion in polyethylene matrix. The P1S improves the dispersion of carbon filler in polyethylene through non-covalent compatibilization: the pyrenyl group gives π-π stacking interactions with graphite and the stearyl chain provides van der Waals interaction with the polymer chain (specifically London dispersion forces). In this study, different P1S/graphite fillers were prepared with a ratio by weight of 90/10 and 50/50, respectively, by using manual and ball-milling mixing. Their stability, interaction and morphology were evaluated through TGA, RX, and SEM. Thermogravimetric analyses showed that ball-milling mixing is more effective than manual mixing in promoting π-π stacking interactions of molecules such as P1S ester containing an alkyl chain and aromatic rings. The role of ball milling is confirmed by X-ray diffraction measurements since it was possible to observe both exfoliation and intercalation phenomena when this technique was used to mix the P1S ester with graphite. SEM analyses of polyethylene containing 1% of the carbon fillers again highlighted the importance of ball milling to promote the interaction of the ester with graphite and, simultaneously, the importance of the alkyl chain in order to achieve polyethylene-graphite compatibilization.
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ISSN:2073-4360
2073-4360
DOI:10.3390/polym15132770