文摘
Water is the strongest competitor to CO<sub>2sub> in the adsorption on microporous materials, affecting their performances as CO<sub>2sub> scrubbers in processes such as postcombustion carbon capture. The metal–organic framework (MOF) UTSA-16 is considered a promising material for its capacity to efficiently capture CO<sub>2sub> in large quantities, thanks to the presence of open metal sites (OMSs). It is here shown that UTSA-16 is also able to desorb fully water already at room temperature. This property is unique from all the other materials with OMSs reported so far. UTSA-16 retains indeed the 70% of its CO<sub>2sub> separation capacity after admittance of water in a test flow, created to simulate the emissions from a real postcombustion carbon-capture process. This important aspect not yet observed for any other amine-free material, associated with a high material stability—tested for 160 cycles—and a small temperature swing necessary for regeneration, places UTSA-16 in the restrict number of systems with a real technological future for CO<sub>2sub> separation.