Abstract
With constant decrease of the production cost of graphene and constant development of the excellent properties, graphene nanomaterial has more and more application advantages in the control of environmental pollution, and its application prospect has been more and more emphasized by the scientific research working personnel on environmental protection. But it is a new nanomaterial with complex graphene surface oxidized structure in the aromatic nitro compounds, and its oxidation property and surface oxidation debris quantity are always the restraints influencing the application effect of graphene material. For this reason, this study has analyzed the pollution source of aromatic nitro compounds, and carried out the adsorption treatment and catalytic reduction treatment experiments on aromatic nitro compounds, so as to analyze the catalytic adsorption mechanism of graphene surface oxidized structure in aromatic nitro compounds, to provide the theoretical reference for the related studies.