Stability of Phenyl Copolymer–Graphene Oxide Composites in High-Alkali and/or -Calcium Environments: Implications for Strengthening and Toughening Cement-Based Materials

On the basis of their size effect and structural characteristics, carbon nanomaterials have great application potential in building materials, especially for strengthening and toughening cement-based materials. However, because of the poor dispersant of graphene oxide (GO) in cement-based materials...

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Bibliographic Details
Published in:ACS applied nano materials 2022-03, Vol.5 (3), p.4038-4047
Main Authors: Wang, Huangqi, Zhang, Liran, Wang, Dongmin, Geng, Danhua, Dong, Ziliang, Su, Zhuangfei
Format: Article
Language:English
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Summary:On the basis of their size effect and structural characteristics, carbon nanomaterials have great application potential in building materials, especially for strengthening and toughening cement-based materials. However, because of the poor dispersant of graphene oxide (GO) in cement-based materials with high-alkalinity and high-calcium content, its application in cement concrete is facing great challenges. Here, a method of self-assembling GO by phenyl polymer to achieve effective dispersion is reported. The good dispersion stability is due to hybridization between the phenyl group of the polymer and GO through noncovalent interactions, so the polymer can be anchored to the surface of the GO sheet and dispersed by steric hindrance of the side chain of poly­(ethylene oxide) (PEO). The results show that when the length of the PEO side chain is constant, the phenyl content in the copolymer may not only affect the π–π-stacking interaction (from offset face-to-face to edge-to-face) but also significantly affect the dispersion stability of the system. When the molar ratio of phenyl to the PEO side chain is about 2, it shows good dispersibility (i.e., the size of the self-assembled composite is the smallest). This provides reference and enlightenment for regulation of the dispersion stability of GO under severe environmental conditions.
ISSN:2574-0970
2574-0970
DOI:10.1021/acsanm.2c00023