Abstract

Acid gases such as SO2 and CO2 are present in many environments in which the use of nanoporous metal–organic frameworks (MOFs) is envisaged. Among metal–organic frameworks, zeolitic imidazolate frameworks (ZIFs) have been extensively explored as membranes or adsorbents. However, there is little systematic knowledge of the effects of acid gas exposure on the structure of ZIFs, in particular the mechanistic aspects of ZIF degradation by acid gases as well as the effects of ZIF crystal topology and linker composition on their stability. Here we present a generalized and quantitative investigation of the kinetic and thermodynamic acid gas stability of a diverse range of ZIF materials. The stability of 16 ZIFs (of SOD, RHO, ANA, and GME topologies) under different environments—humid air, liquid water, and acid gases CO2 and SO2 (dry, humid, and aqueous)—is investigated by a suite of experimental and computational methods. The kinetics of ZIF degradation under exposure to humid SO2 is studied in detail, and eff...

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