CC BY 4.0Matemb Ma Ntep, Tobie J.Tobie J.Matemb Ma NtepWahiduzzaman, MohammadMohammadWahiduzzamanLaurenz, EricEricLaurenzCornu, IeuanIeuanCornuMouchaham, GeorgesGeorgesMouchahamDovgaliuk, IuriiIuriiDovgaliukNandi, ShyamapadaShyamapadaNandiKnop, KlausKlausKnopJansen, ChristianChristianJansenNouar, FaridFaridNouarFlorian, PierrePierreFlorianFüldner, GerritGerritFüldnerMaurin, GuillaumeGuillaumeMaurinJaniak, ChristophChristophJaniakSerre, ChristianChristianSerre2023-07-032023-07-032024Note-ID: 00008976https://publica.fraunhofer.de/handle/publica/445006https://doi.org/10.24406/publica-157610.1002/adma.20221130210.24406/publica-1576The development of thermally driven water-sorption-based technologies relies on high-performing water vapor adsorbents. Here, polymorphism in Al-metal-organic frameworks is disclosed as a new strategy to tune the hydrophilicity of MOFs. This involves the formation of MOFs built from chains of either trans- or cis- µ-OH-connected corner-sharing AlO4(OH)2 octahedra. Specifically, [Al(OH)(muc)] or MIP-211, is made of trans, trans-muconate linkers, and cis-µ-OH-connected corner-sharing AlO4(OH)2 octahedra giving a 3D network with sinusoidal channels. The polymorph MIL-53-muc has a tiny change in the chain structure that results in a shift of the step position of the water isotherm from P/P0 ≈ 0.5 in MIL-53-muc, to P/P0 ≈ 0.3 in MIP-211. Solid-state NMR and Grand Canonical Monte Carlo reveal that the adsorption occurs initially between two hydroxyl groups of the chains, favored by the cis-positioning in MIP-211, resulting in a more hydrophilic behavior. Finally, theoretical evaluations show that MIP-211 would allow achieving a coefficient of performance for cooling (COPc) of 0.63 with an ultralow driving temperature of 60 °C, outperforming benchmark sorbents for small temperature lifts. Combined with its high stability, easy regeneration, huge water uptake capacity, green synthesis, MIP-211 is among the best adsorbents for adsorption-driven air conditioning and water harvesting from the air.enadsorptionadsorption chillerMetal organic frameworkjournal article