Palladium-related metallic membranes for hydrogen separation and purification: A review

Hydrogen is regarded as an excellent carrier for sustainable energy due to its high efficiency, environmental friendliness, and abundance, which can promote sustainable social and economic development. Membrane technology for hydrogen purification can effectively separate high-purity H2 from mixed gases produced through processes such as water gas shift conversion or natural gas reforming, for use in the fuel cell, petrochemical, metallurgical, and semiconductor industries. If membrane technology for hydrogen purification can be applied on a large scale, it can make the hydrogen transported through natural gas pipelines useful. Metallic membranes are particularly promising in these applications due to their excellent selectivity. Metal Palladium (Pd), with its extremely high hydrogen selectivity, thermal stability, and catalytic performance, has always been a research hotspot for membrane materials used in hydrogen separation and purification processes. This review summarizes the research progress of Pd related metallic membranes for hydrogen separation from three aspects: unsupported Pd alloy membranes, Pd-coated composite membranes with porous supports, and Pd- coated non-Pd-based alloy membranes. Finally, it briefly outlines the development trend of Pd-related metallic membranes in the field of hydrogen separation and purification.