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Facile, Electrochemical Chlorination of Graphene from an Aqueous NaCl Solution

Wan Li, Yunqi Li, Ke Xu

2021Nano Letters31 citationsDOI

Abstract

We report a facile approach to directly chlorinate graphene from an aqueous sodium chloride solution under ambient conditions. By applying a moderate anodic voltage to substrate-supported monolayer graphene, the resultant chlorine radicals generated at the graphene surface enable efficient chlorination: X-ray photoelectron spectrum confirms the formation of C–Cl bonds, and reaction voltage-tunable Cl:C atomic ratios of up to 17% are achieved. In comparison, we find the corresponding electrochemical graphene bromination and iodination reactions much less viable. Electrical and Raman characterizations show substantial p-doping for the chlorinated graphene, yet good basal-plane integrity and electrical properties are maintained. Interference reflection microscopy and pH-dependent experiments next help elucidate the competition between the radical-mediated electrochemical chlorination and oxidation in the process, and rationalize acidic conditions for optimal chlorination. Reaction in a mixed NaCl–NaN3 solution shows the electrochemical chlorination to be fully suppressed by azidation, yet a sequential, two-step chlorination-azidation approach permits facile bifunctionalization.

Topics & Concepts

GrapheneAqueous solutionElectrochemistryChlorineRaman spectroscopyOxideChemistryRadicalMaterials scienceInorganic chemistryPhotochemistryChemical engineeringNanotechnologyOrganic chemistryElectrodeOpticsEngineeringPhysicsPhysical chemistryElectrochemical Analysis and ApplicationsEnvironmental remediation with nanomaterialsGraphene research and applications