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Water‐Stable Metal Azolate Frameworks Showing Interesting Flexibilities for Highly Effective Bioethanol Dehydration

Yu‐Cheng Tang, Zhi‐Shuo Wang, Yi Heng, Mu‐Yang Zhou, Dong‐Dong Zhou, Jie‐Peng Zhang, Xiao‐Ming Chen

2023Angewandte Chemie International Edition32 citationsDOIOpen Access PDF

Abstract

Abstract The ethanol/water separation challenge highlights the adsorption capacity/selectivity trade‐off problem. We show that the target guest can serve as a gating component of the host to block the undesired guest, giving molecular sieving effect for the adsorbent possessing large pores. Two hydrophilic/water‐stable metal azolate frameworks were designed to compare the effects of gating and pore‐opening flexibility. Large amounts (up to 28.7 mmol g −1 ) of ethanol with fuel‐grade (99.5 %+) and even higher purities (99.9999 %+) can be produced in a single adsorption process from not only 95 : 5 but also 10 : 90 ethanol/water mixtures. More interestingly, the pore‐opening adsorbent possessing large pore apertures showed not only high water adsorption capacity but also exceptionally high water/ethanol selectivity characteristic of molecular sieving. Computational simulations demonstrated the critical role of guest‐anchoring aperture for the guest‐dominated gating process.

Topics & Concepts

AdsorptionSelectivityDehydrationEthanolChemical engineeringChemistrySelective adsorptionGatingMaterials scienceOrganic chemistryCatalysisPhysiologyEngineeringBiochemistryBiologyMetal-Organic Frameworks: Synthesis and ApplicationsCovalent Organic Framework ApplicationsCatalysis and Hydrodesulfurization Studies