Membrane-based adsorbent materials for uranium extraction from seawater: recent progress and future prospects

Abstract

The global energy shortage is becoming increasingly severe, making it urgent to address the energy deficit. Nuclear energy is considered a green, efficient and clean energy source. The reserves of uranium, an essential strategic nuclear fuel resource, have become pivotal in addressing the energy crisis. Compared to uranium resources on land, the ocean is rich in uranium. Therefore, uranium extraction from seawater has become an ideal choice. However, the variety of competing ions in seawater, its high salinity and the complex marine environment make uranium extraction from seawater a huge challenge. In the context of assessing the economics and sustainability of the entire uranium separation process, membrane-based adsorbents are considered ideal materials for large-scale uranium extraction from seawater due to their ease of collection and reuse. This review discusses different types of membrane-based adsorbent materials, including modified non-woven membranes, phase conversion membranes, and other types of membrane materials. In addition, this review summarizes recent studies on the use of membrane-based adsorbents for extracting uranium from seawater and the prospects for their development. With the rapid development of membrane-based adsorbents for uranium extraction from seawater, this review also discusses the challenges and future prospects of this frontier field.