Non-covalent strategies for the preparation of stable aqueous graphene dispersions
College
College of Science
Department/Unit
Chemistry
Document Type
Article
Source Title
Journal of the Chinese Chemical Society
First Page
1
Last Page
16
Publication Date
2025
Abstract
Achieving stable aqueous dispersions of graphene is crucial for enabling applications in flexible electronics, sensors, coatings, and biomedical materials. However, graphene's intrinsic hydrophobicity and strong tendency to aggregate in water remain major obstacles to its large-scale use. Non-covalent functionalization has emerged as a promising strategy to disperse graphene in water without compromising its sp2-conjugated structure. This minireview summarizes recent advances in non-covalent approaches employing small molecules, surfactants, and polymers to stabilize graphene dispersions. Key molecular interactions, such as 1t-1t stacking, van der Waals forces, hydrophobic effects, and electrostatic or steric repulsion, are discussed. Particular emphasis is placed on pyrene derivatives, amphiphilic surfactants, and both synthetic and natural polymers, highlighting their dispersion mechanisms, performance, and limitations. The review concludes with perspectives on future developments, including the use of renewable, non-covalent modifiers to design efficient, scalable, and application-specific dispersion systems.
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Recommended Citation
Garcia, M. S., Alcantara, J. S., Alea, G. V., & Ebajo, V. D. (2025). Non-covalent strategies for the preparation of stable aqueous graphene dispersions. Journal of the Chinese Chemical Society, 1-16. Retrieved from https://animorepository.dlsu.edu.ph/faculty_research/14996
Disciplines
Chemistry
Keywords
Graphene; Particle size determination
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