Interfacial Unit-Dependent Catalytic Activity for CO Oxidation over Cerium Oxysulfate Cluster Assemblies

Wasson, Megan C.; Wang, Xingjie; Melix, Patrick; Alayoǧlu, Selim; Wolek, Andrew T.Y.; Colliard, Ian; Son, Florencia A.; Xie, Haomiao; Weitz, Eric; İslamoğlu, Timur; Nyman, May; Snurr, Randall Q.; Notestein, Justin M.; Farha, Omar K.

doi:10.1021/acsami.2c05937

Cited by 4 publications

(7 citation statements)

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“…Due to the low-lying f-orbital, it is the only lanthanide with a stable +IV oxidation state. Ce(IV) salts are used as oxidants in organic chemistry or in quantitative analysis (cerimetry), and the redox-couple Ce(III/IV) is utilized in industrial applications, such as automotive exhaust emission control, where nanoparticles of ceria (CeO 2 ) act as an oxygen storage component in the three-way catalytic converter. , Cerium–oxo clusters or Ce–O clusters that resemble cerium dioxide present a fascinating platform for further research as these discrete crystallographically defined clusters enable more confident assignments of structure–activity relationships …”

Section: Introductionmentioning

confidence: 99%

“…Until today, various Ce–O clusters have been reported with variable numbers of metal cores, ranging from two ,,, to 13 cerium ions as well as some polynuclear Ce(IV)–O clusters of higher order whose properties approach those of the parent oxide CeO 2 with an increasing number of metal cores. ,,− However, the majority of Ce(IV)-O clusters exhibit a hexanuclear building unit in which the metal ions are coordinated by either eight or nine oxygen ions. Ce–O cluster materials reported so far have shown great potential in catalytic applications, including the oxidation of catechol, the photooxidation of 2-propanol or the conversion of CO to CO 2 . Apart from pure Ce–O clusters, some heterometallic clusters have also been described .…”

Section: Introductionmentioning

confidence: 99%

“…2,3 Cerium−oxo clusters or Ce−O clusters that resemble cerium dioxide present a fascinating platform for further research as these discrete crystallographically defined clusters enable more confident assignments of structure−activity relationships. 4 Ce−O clusters are usually crystallized from solutions of cerium nitrate and chelating molecules. Thus, the resulting Ce− O building units are known with different ligands, i.e., alkoxides, 5−9 carboxylates, 10−16 nitrates, 10−12 or carbonates.…”

Section: Introductionmentioning

confidence: 99%

“…Ce−O cluster materials reported so far have shown great potential in catalytic applications, including the oxidation of catechol, 10 the photooxidation of 2-propanol 21 or the conversion of CO to CO 2 . 4 Apart from pure Ce−O clusters, some heterometallic clusters have also been described. 14 Christou et al discovered various mixed-valence Ce X Mn X cluster compounds with interesting properties for use as single-molecule magnets.…”

Section: Introductionmentioning

confidence: 99%

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Solubility and Stability of Hexanuclear Ce(IV)–O Clusters

et al. 2023

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Stable molecular clusters are of interest for targeted deposition in porous materials. In this work, we report the discovery of two new molecular Ce–O clusters of composition [Ce6O4(OH)4(NO3)4(DMF)4(C7H4O2X)8]·(DMF)4(H2O)2 (1-X) and [Ce6O4(OH)4(H2O)6(NO3)6(C7H4O2X)6] (2-X) (X = −Cl, −CHO, and −Br). Both cluster types contain a similar hexanuclear building unit, and crystal structures were determined from single-crystal X-ray diffraction or 3D electron diffraction data and subsequent Rietveld refinements against powder X-ray diffraction (PXRD) data. The crystal structure data is complemented by results from the local structure around the cerium ions, determined by extended X-ray absorption fine structure (EXAFS) measurements in the solid state. The composition of all Ce–O clusters was confirmed by elemental analysis, NMR and IR spectroscopy. The Ce–O clusters are highly soluble, up to 101 and 136 g/L for 1-Cl and 2-Cl, respectively, in organic solvents, which strongly depends on the type of cluster and functionalization of the benzoate ligands. Moreover, the structural and compositional integrity of dissolved clusters in different solvents was established. Recrystallization of 1-Cl from dichloromethane (DCM) and Raman spectroscopy confirm the integrity of both cluster types in solution. Further examination by EXAFS measurements on the Ce K-edge of clusters containing 4-chlorobenzoate reveals that only minor changes in the cerium environment of 1-Cl are observed upon dissolution in THF, DCM, and dioxane, while the results for 2-Cl indicate a partial degradation upon dissolution. After proving the stability, a cluster solution of 1-Cl was used to impregnate the mesoporous metal–organic framework Cr-MIL-101. Extensive characterization by PXRD, inductively coupled plasma-optical emission spectroscopy, and energy-dispersive X-ray spectroscopy, as well as thermogravimetry and N2-sorption measurements, confirm the successful insertion of Ce–O clusters into the large mesoporous cages of the framework. Due to the combination of high surface area and potential catalytic activity, the Cluster@MOF materials could be of high interest for application in heterogeneous catalysis.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Solubility and Stability of Hexanuclear Ce(IV)–O Clusters

et al. 2023

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“…Metal–organic frameworks are porous extended crystalline solids constructed by connecting metal ions or metal clusters with organic linkers through coordination bonds . The accessible surface area of MOFs can reach up to 8000 m 2 /g, surpassing the conventional materials such as zeolites and activated carbon. − Therefore, they are very promising materials for many applications including gas storage, − catalyst, − electrochemical applications, − and drug delivery, , to name a few. MOFs are also a suitable source for obtaining nanocarbon-based materials, particularly N-doped carbons .…”

mentioning

confidence: 99%

Boosting the Ceramics with In Situ MOF-Derived Nanocarbons

Duden

Bayrak

Balkan

et al. 2023

ACS Materials Lett.

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Metal–organic framework (MOF)-derived nanocarbons have emerged as promising materials for energy and environmental applications owing to their high surface area, structural and chemical tunability, and hierarchical porosity. Although various carbon-based materials such as graphene and carbon nanotubes have been extensively used as secondary sintering additives to develop advanced ceramics with improved mechanical, thermal, and electrical properties, the potential of MOF-derived nanocarbon-based materials has not been explored. Here, we report the first use of MOF-derived nanocarbons as a reinforcement phase in ceramic composites. To this end, Al2O3 and zeolitic imidazolate framework (ZIF-8) are used as the ceramic matrix and nanocarbon source, respectively. The ceramic composites are produced by densifying Al2O3 and ZIF-8 powder mixtures using spark plasma sintering (SPS) at 1550 °C and uniaxial pressure of 50 MPa. The fracture toughness of the composite increases up to 67% in comparison to an alumina monolith as ZIF-derived nanocarbons form interlayers to assist the dissipation of energy during the crack propagation and inhibit grain growth. The room-temperature electrical conductivity of the sintered samples drastically increases with the in situ formed nanocarbon-based fillers, reaching as high as 1410 S/m for 10 wt % ZIF-8 content. These results constitute an excellent initial step toward boosting the mechanical and electrical properties of ceramic matrix composites with in situ MOF-derived nanocarbons.

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Precisely Assembling a CoO Cocatalyst onto Tb₄O₇/CN and Pt-Tb₄O₇/CN for Promoting Photocatalytic Overall Water Splitting

Zeng,

2024

Inorg. Chem.

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Photocatalytic overall water splitting (POWS) is a promising approach for solar-to-hydrogen conversion. For achieving this target, it is urgent to develop efficient photocatalysts. Constructing a heterojunction and loading a cocatalyst are two effective strategies for enhancing POWS. However, how to achieve the cooperation of loading the cocatalyst site with the charge separation of a heterojunction remains a huge challenge. Herein, we present an ingenious method: precisely assembling a H 2 O 2producing cocatalyst CoO on Tb 4 O 7 /CN. Assembling CoO on CN of Tb 4 O 7 /CN improves the photoinduced electron−hole pair separation and promotes the POWS performance. Inversely, engineering CoO on Tb 4 O 7 leads to production of Co, deactivating POWS performance with a H 2 -evolution rate 5.2 times lower than that of Tb 4 O 7 /CN. Furthermore, we precisely assemble CoO on the CN section of Pt-oriented Pt-Tb 4 O 7 /CN. The bioriented CoO and Pt cooperatively promote photogenerated carrier separation. Consequently, the prepared Pt-Tb 4 O 7 /CN-CoO exhibits spectacularly high POWS activity. The H 2 -evolution rate reaches 450 μmol h −1 g −1 , which is about 9.4 times higher than that of the initial Tb 4 O 7 /CN. The apparent quantum yield (AQY) for H 2 evolution at 420 nm reaches 14.1%, surpassing those of most reported CN-based photocatalysts. This work offers an approach to precisely load cocatalysts on heterojunctions. These findings provide insights for designing cocatalyst-decorated heterojunctions for POWS.

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Interfacial Unit-Dependent Catalytic Activity for CO Oxidation over Cerium Oxysulfate Cluster Assemblies

Cited by 4 publications

References 62 publications

Solubility and Stability of Hexanuclear Ce(IV)–O Clusters

Solubility and Stability of Hexanuclear Ce(IV)–O Clusters

Boosting the Ceramics with In Situ MOF-Derived Nanocarbons

Precisely Assembling a CoO Cocatalyst onto Tb₄O₇/CN and Pt-Tb₄O₇/CN for Promoting Photocatalytic Overall Water Splitting

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Interfacial Unit-Dependent Catalytic Activity for CO Oxidation over Cerium Oxysulfate Cluster Assemblies

Cited by 4 publications

References 62 publications

Solubility and Stability of Hexanuclear Ce(IV)–O Clusters

Solubility and Stability of Hexanuclear Ce(IV)–O Clusters

Boosting the Ceramics with In Situ MOF-Derived Nanocarbons

Precisely Assembling a CoO Cocatalyst onto Tb4O7/CN and Pt-Tb4O7/CN for Promoting Photocatalytic Overall Water Splitting

Contact Info

Product

Resources

About

Precisely Assembling a CoO Cocatalyst onto Tb₄O₇/CN and Pt-Tb₄O₇/CN for Promoting Photocatalytic Overall Water Splitting