Controllable redox reaction cycle enabled by multifunctional Ru-containing polyoxometalate-based catalysts

Li, Huafeng; Yuan, Zelong; Chen, Wenjing; Yang, Mingyuan; Sun, Yahao; Zhang, Shihao; Ma, Pengtao; Niu, Jingyang; Wang, Jingping

doi:10.1039/d3ta00498h

Cited by 7 publications

(6 citation statements)

References 52 publications

(66 reference statements)

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“…Also, the formation of compound 1 also provides a feasible synthetic approach for the construction of large clusters based on lacunary Dawson-like compounds in the future. Combining the bond valence sums (BVSs) calculated (Table S5) and XPS analysis (Figure a,b and Figure S9), we effectively demonstrate that Ru atoms are in the valence state of +3, and Sb and ordered W atoms display +3 and +6 oxidation states, − respectively.…”

Section: Resultsmentioning

confidence: 80%

Controlled Assembly of a Dawson-like Antimoniotungstate-Supported Trefoil-type Trimer with Good Proton Conductivity Performance

Sun,

Zou,

et al. 2024

Inorg. Chem.

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With the excellent properties of POM in the field of proton conductivity, the preparation of POM-based proton-conductive materials has burst into life. Herein, an unprecedented Sb-templated all-inorganic trimer Na 8 H 18.64 [(SbW 14 O 52 ) 3 (Sb 2 W 6.12 Ru 5.88 O 18 )]•85H 2 O (1), which is based on tetravacant Dawson-like [SbW 14 O 52 ] 17− blocks and exhibits a trefoil type with D 3 symmetry, has been successfully designed and synthesized by the assembly of simple materials with a one-pot hydrothermal method under acidic conditions. Also, compound 1 is systematically characterized by singlecrystal X-ray diffraction, PXRD, ESI-MS, IR spectroscopy, UV−vis, elemental analysis, and TGA. Crystal structure data analysis demonstrates that compound 1 is constructed by a hexagonal prismatic heterometallic {Sb 2 W 6.12 Ru 5.88 O 18 } core and three equivalent {SbW 14 } units bridged through μ 2 -O atoms in periphery. Subsequently, further property experiments show that compound 1 exhibits high proton conductivity with a conductivity value (σ) of 3.07 × 10 −2 S cm −1 at 75 °C and 80% relative humidity (RH). The activation energy of compound 1 evaluated by the Arrhenius plots is 0.22 eV, which indicates that the Grotthuss mechanism is dominant during the process of proton transfer.

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Section: Resultsmentioning

confidence: 80%

Controlled Assembly of a Dawson-like Antimoniotungstate-Supported Trefoil-type Trimer with Good Proton Conductivity Performance

Sun,

Zou,

et al. 2024

Inorg. Chem.

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“…and organic ligands (usually those containing coordination-active carboxyl, amidogen or hydroxy groups) have been introduced into the skeletons of POMs. [14][15][16][17][18][19][20][21][22][23][24][25][26][27] This situation undoubtedly contributes to an overwhelming diversity of molecular structures and unique properties, for example, photoluminescence/electroluminescence ability, reversible multi-electron transport capability, catalytic activity, and so on. Therefore, POM-based materials have been extensively utilized in optical devices, electrochemical/optical sensors, energy-related elds, and some other cutting-edge elds.…”

Section: Introductionmentioning

confidence: 99%

Advances in polyoxometalate-based electrochemical sensors in the last three years

Lu,

Tang,

Wang

et al. 2024

Anal. Methods

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“…Despite significant advances, expanding the scope of applications for W(VI) beyond these areas and achieving controllable selectivity for challenging transformations not only represent meaningful chemical innovation but also enhance its organometallic characteristics. 15,16 The oxidation of inexpensive and readily available anilines to produce highly valuable products (Figure 1b), such as azoxybenzenes (AOB), 17−19 azobenzene (AB), 20,21 nitrosobenzenes (NSB), 22 and nitrobenzenes (NB), 23 holds practical importance in industrial and academic fields due to their essential uses in pharmaceuticals, bioactive products, functional materials, and organic dyes. Hydrogen peroxide is considered a green oxidant because its only byproduct is water, offering new possibilities for developing green and sustainable methods.…”

Section: ■ Introductionmentioning

confidence: 99%

Homogeneous Tungsten Catalysis for Controllable Selective Oxidation of Anilines via the W(O)(η²-O₂)₂ Intermediate

Song,

Wei,

Wang

et al. 2024

ACS Catal.

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The controllable selective oxidation of anilines to metastable and valuable products mediated by a single catalyst represents a long-standing synthetic challenge due to the numerous active species generated in situ and their intricate interactions. This study introduces the synthesis of a μ-oxo-bridged dinuclear tungsten complex [W(O) 2 (Cl) 4-MeO bpy] 2 O (W-1), which demonstrates selectivity in the oxidation of anilines, enabling the precise production of various azoxybenzenes, symmetric/unsymmetric azobenzenes, nitrosobenzenes, as well as nitrobenzenes. This marks the instance of a single molecular catalyst being employed for the synthesis of four distinct products through aniline oxidation. A combination of kinetic measurements and stoichiometric experiments unveils that the original selectivity for individual products among the many that can potentially arise is governed by the precise conversion of the active intermediates N-phenylhydroxylamine and nitrosobenzene into the specific procedures. A peroxotungstate complex [W(O 2 ) 2 (O) 4-MeO bpy] (W-2) was isolated by the reaction of W-1 with H 2 O 2 . The combined experimental results and density functional theory (DFT) investigations unraveled that W-2 was a critical species in generating both the key N-phenylhydroxylamine and the nitrosobenzene intermediates by providing the H-bonding network in catalytic systems.

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Controllable redox reaction cycle enabled by multifunctional Ru-containing polyoxometalate-based catalysts

Abstract: Limited studies have been reported due to the difficulty of synthesizing multifunctional catalysts to realized redox reaction path cycle. Herein, two multifunctional Ru-containing polyoxometalates-based photocatalysts have been prepared via controllable...

Cited by 7 publications

References 52 publications

Controlled Assembly of a Dawson-like Antimoniotungstate-Supported Trefoil-type Trimer with Good Proton Conductivity Performance

Controlled Assembly of a Dawson-like Antimoniotungstate-Supported Trefoil-type Trimer with Good Proton Conductivity Performance

Advances in polyoxometalate-based electrochemical sensors in the last three years

Homogeneous Tungsten Catalysis for Controllable Selective Oxidation of Anilines via the W(O)(η²-O₂)₂ Intermediate

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Controllable redox reaction cycle enabled by multifunctional Ru-containing polyoxometalate-based catalysts

Abstract: Limited studies have been reported due to the difficulty of synthesizing multifunctional catalysts to realized redox reaction path cycle. Herein, two multifunctional Ru-containing polyoxometalates-based photocatalysts have been prepared via controllable...

Cited by 7 publications

References 52 publications

Controlled Assembly of a Dawson-like Antimoniotungstate-Supported Trefoil-type Trimer with Good Proton Conductivity Performance

Controlled Assembly of a Dawson-like Antimoniotungstate-Supported Trefoil-type Trimer with Good Proton Conductivity Performance

Advances in polyoxometalate-based electrochemical sensors in the last three years

Homogeneous Tungsten Catalysis for Controllable Selective Oxidation of Anilines via the W(O)(η2-O2)2 Intermediate

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Homogeneous Tungsten Catalysis for Controllable Selective Oxidation of Anilines via the W(O)(η²-O₂)₂ Intermediate