Abstract

Deep eutectic solvents (DES), as the reaction medium, had gained considerable attention in the fabrication of advanced carbon nanostructure materials due to their designability. Here, a DES-mediated strategy was investigated to modify the oxidized hydrogen-substituted graphyne (O-HsGY). Ten kinds of DES based on choline chloride were used to modify O-HsGY and improve its adsorption and electrochemical performance. The morphology of DES-mediated oxidized hydrogen-substituted graphyne (DES-O-HsGY) were characterized by field emission-scanning electron microscopy (FE-SEM) and showed some cavity structure. Brunauer Emmett teller and X-ray diffraction characterization confirmed that the material had a relatively average pore size and a wide layer spacing (0.388 nm), which was conducive to ion transport. The adsorption and electrochemical properties of DES-O-HsGY were also studied and presented the excellent performance. The DES (Choline chloride: Ethylene glycol, 1:2) modified material had the best adsorption performance for thiabendazole, and the maximum adsorption value was 0.85 mg/g. The obtained electrochemical testing results proved that the cyclic voltammetry characteristic curve of the modified material not only had stability and deformation resistance at high scanning rate of 300 mV/s, but also had good conductivity. Therefore, the DES-mediated oxidized hydrogen-substituted graphyne had the promising prospect in the field of adsorption and electrochemistry.

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