Macroporous hydrogel membrane by cooperative reaming for highly efficient uranium extraction from seawater

Abstract

As nuclear power plant fuel, nearly 4.5 billion tons of uranium is reserved in the ocean with a low concentration of 3.3 ppb. Uranium capture from natural seawater relies heavily on the development of highly efficient uranium adsorbent. By combination of the water-soluble pore-formingagent (sodium bicarbonate, NaHCO3) and alkali treatment technology, a novel macroporous polyamidoxime (MP-PAO) hydrogel membrane is prepared for highly efficient uranium sorption. The macropores with a size of about 40 µm in diameter contribute to the exposure of previously hidden coordination bond sites and fast diffusion of uranyl ion. As a result, the MP-PAO membrane adsorbent delivers superior uranium sorption capacity of 5.80 mg-U/g-Ads, almost 1.76 times that of the pristine polyamidoxime (PAO) membrane adsorbent. Strikingly, the adsorption equilibrium of uranium on the MP-PAO membrane can be reached within 24 days. The adsorption rate of MP-PAO membrane is 14.29% faster than that of the reference PAO membrane. In addition, the MP-PAO membrane also shows a good reusability and long service life. The strategy applied in this work is widely suitable for the preparation of macroporous adsorbents. MP-PAO membrane holds tremendous potential for uranium capture from natural seawater.