Role of Metal–Organic Framework Topology on Thermodynamics of Polyoxometalate Encapsulation
ACS Applied Materials & Interfaces, 2024•ACS Publications
Polyoxometalates (POMs) are discrete anionic clusters whose rich redox properties, strong
Bro̷nsted acidity, and high availability of active sites make them potent catalysts for
oxidation reactions. Metal–organic frameworks (MOFs) have emerged as tunable, porous
platforms to immobilize POMs, thus increasing their solution stability and catalytic activity.
While POM@ MOF composite materials have been widely used for a variety of applications,
little is known about the thermodynamics of the encapsulation process. Here, we utilize an …
Bro̷nsted acidity, and high availability of active sites make them potent catalysts for
oxidation reactions. Metal–organic frameworks (MOFs) have emerged as tunable, porous
platforms to immobilize POMs, thus increasing their solution stability and catalytic activity.
While POM@ MOF composite materials have been widely used for a variety of applications,
little is known about the thermodynamics of the encapsulation process. Here, we utilize an …
Polyoxometalates (POMs) are discrete anionic clusters whose rich redox properties, strong Bro̷nsted acidity, and high availability of active sites make them potent catalysts for oxidation reactions. Metal–organic frameworks (MOFs) have emerged as tunable, porous platforms to immobilize POMs, thus increasing their solution stability and catalytic activity. While POM@MOF composite materials have been widely used for a variety of applications, little is known about the thermodynamics of the encapsulation process. Here, we utilize an up-and-coming technique in the field of heterogeneous materials, isothermal titration calorimetry (ITC), to obtain full thermodynamic profiles (ΔH, ΔS, ΔG, and Ka) of POM binding. Six different 8-connected hexanuclear Zr-MOFs were investigated to determine the impact of MOF topology (csq, scu, and the) on POM encapsulation thermodynamics.
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