A novel benzimidazole-functionalized 2-D COF material: Synthesis and application as a selective solid-phase extractant for separation of uranium

[Display omitted] •A surface carboxyl-rich COF material (COF-COOH) was prepared for the first time.•The solid-phase extractant COF-HBI was obtained by the modification of COF-COOH.•COF-HBI possesses excellent physical and chemical properties.•The sorption process of COF-HBI toward U(VI) was rapid and efficient. A novel COF-based material (COF-COOH) containing large amounts of carboxylic groups was prepared for the first time by using a simple and effective one-step synthetic method, in which the cheap and commercially available raw materials, trimesoyl chloride and p-phenylenediamine, were used. The as-synthesized COF-COOH was modified with previously synthesized 2-(2,4-dihydroxyphenyl)-benzimidazole (HBI) by “grafting to” method, and a new solid-phase extractant (COF-HBI) with highly efficient sorption performance for uranium(VI) was consequently obtained. A series of characterizations demonstrated that COF-COOH and COF-HBI exhibited great thermostabilities and irradiation stabilities. Sorption behavior of the COF-based materials toward U(VI) was compared in simulated nuclear industrial effluent containing UO22+ and 11 undesired ions, and the UO22+ sorption amount of COF-HBI was 81mgg−1, accounting for approximately 58% of the total sorption amount, which was much higher than the sorption selectivity of COF-COOH to UO22+ (39%). Batch sorption experiment results indicated that the uranium(VI) sorption on COF-HBI was a pH dependent, rapid (sorption equilibrium was reached in 30min), endothermic and spontaneous process. In the most favorable conditions, the equilibrium sorption capacity of the adsorbent for uranium could reach 211mgg−1.