By integrating covalent functionalization, defect engineering, and surface chemistry, we demonstrated the importance of the chemical functionality of graphene in mediating proton transport across its basal plane. The foundational insights into proton hopping mechanisms, interfacial hydrophilicity, and charge-driven ion dynamics are explored with the aim of establishing chemical correlations between the chemical functionality of 2D materials and their membrane properties. Successful realization of these objectives could lead to advancements in energy storage, electronics, and materials science, providing chemical insights into next-generation technologies utilizing 2D materials in membranes.

• (sub)nanofluidics
• adhesion
• graphene
• hydrophilicity
• proton transport
• selectivity
• sp3
• sulfophenylation

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