Integrating molecular design and crystal engineering approaches in non-humidified intermediate-temperature proton conductors based on a Dawson-type polyoxometalate and poly(ethylene glycol) derivatives

Ogiwara, Naoki; Tomoda, Masashi; Miyazaki, Shotaro; Weng, Zhewei; Takatsu, Hiroshi; Kageyama, Hiroshi; Misawa, Toshiyuki; Ito, Takeru; Uchida, Sayaka

doi:10.1039/d1nr01220g

Cited by 22 publications

(6 citation statements)

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“…For example, the following four cases of novel organic–inorganic hybrids, formulated as (H 2 bpe) 3.5 H 2 [SbW 18 O 60 ]·5H 2 O, {Ni(phen) 3 } 3 [SbW 18 O 60 ](H 3 O) 3 ·7H 2 O, [Cu I (phen)(H 2 O) 3 ]{[Cu II 2 (phen) 2 (H 2 O) 2 ] 2 [SbW 18 O 60 ]}·2H 2 O, and [Cu 2 Cl(H 2 O) 3 (phen) 2 ] 2 [H 3 SbW 18 O 60 ]·7H 2 O (phen = 1,10-phenanthroline), all were successfully established by the assembly between an inorganic Dawson-like [SbW 18 O 60 ] 9– polyanion and an organic ligand. − These new Dawson-like compounds not only greatly enrich the library of the Dawson structures but also provide more optional building blocks for further embellishing structures. In addition, in recent years, the development process of proton conductivity materials has drawn great attention owing to their wide application in fuel cells and other electrochemical devices. , As a class of significant materials with great prospect, POMs exhibit great advantages in the proton conduction because of the delocalization of small negative surface charges with low Madelung site potential and oxygen-rich surface. − As one of the typical types in the POM field, the Dawson-type POMs become one of multitudinous candidates owing to their relatively large cluster size and anisotropic shape and also are considered as ideal receptors for forming hydrogen bonding networks with water molecules, which endows the Dawson-type compounds with good proton conductivity property. , However, there are few reports about the application of Dawson-type POMs in proton conduction.…”

Section: Introductionmentioning

confidence: 99%

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: Introductionmentioning

confidence: 99%

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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“…29 In order to solve the solubility problem of POMs in water, electrostatic interactions or acid-base pair needs to be introduced to the host-guest hybrid system preventing leaching of the POMs. 30,31 In 2018, Yoo's group introduced phosphotungstic acid into sulfonated fluorinated block copolymer using facile solution casting approach and the proton conductivity of SFBC-50/PWA-30 can reach 105.22 mS⋅cm −1 at 90 ) is an excellent filler candidate not only because of its own good proton conductivity, but also for the high positive charge on the surface of H 6 Bi 12 O 16 clusters, which can form electrostatic interaction with sulfonate in the main chain. This precise molecular-level hybridization will be conducive to good microphase separation of PEMs, improving the proton conductivity of hybrid membranes.…”

Section: Introductionmentioning

confidence: 99%

Precise modification of poly(aryl ether ketone sulfone) proton exchange membranes with positively charged bismuth oxide clusters for high proton conduction performance

Yin

Zhang

et al. 2022

SusMat

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In the field of proton exchange membranes (PEMs), it is still a great challenge to explore new Nafion alternatives, maintaining the high proton conductivity and lowering the cost of practical application. In this work, a series of low sulfonated poly(aryl ether ketone sulfone) (SPAEKS) membranes hybridized by [Bi 6 O 5 (OH) 3 ] 2 (NO 3 ) 10 ⋅6H 2 O (H 6 Bi 12 O 16 ) have been successfully fabricated. When the doping amount of H 6 Bi 12 O 16 reaches 5 wt%, the DS15-Bi 12 -5 showing the best proton conductive ability and mechanical properties. The proton conductivity can achieve 72.8 mS⋅cm −1 at 80 • C and the tensile strength can reach 43.57 MPa. Confirmed by experimental data and activation energy (E a ) calculations, the existence of Bi cluster makes more hydrogen bonds, providing additional proton hopping sites and offers more proton transport vehicles, leading to a high proton conduction performance. This work proved that polyoxometalates (POMs) can replace the role of sulfonate groups in SPAEKS to a certain extent and work out the defects of high sulfonation, making a remarkable contribution to the practical application of low sulfonated SPAEKS.

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“…As summarized in Figure 1, polymorphs could be readily obtained by controlling the crystallization conditions. Since POM-based compounds are known to show efficient proton conduction, [31][32][33][34][35][36] proton conductivities of the ionic crystals were estimated by alternating current (AC) impedance measurements as a method for sample characterization and exploring functionality. As expected, the compounds with higher porosity, terminal amines (i. e., DMF), or coordination water exhibited high proton conductivity.…”

Section: Introductionmentioning

confidence: 99%

Syntheses, Polymorphic Transformations, and Functions of Ionic Crystals Based on Mononuclear Bismuth(III) Complexes and Polyoxometalates

Uchida¹,

Iwano

Akutsu

et al. 2022

ChemNanoMat

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The controlled assembly of molecules, ions, and ligands as building blocks based on crystal engineering leads to various functional crystalline solids. In particular, polyoxometalates (POMs), which are anionic metal oxide clusters, have been a popular motif in crystal engineering. To revisit simple mononuclear metal complexes as counter cations of POMs, seven ionic crystals based on Keggin‐ or Dawson‐type POMs with mononuclear bismuth(III) complexes as counter cations were synthesized. The bismuth(III) center exhibited triangular dodecahedron, square antiprism, or pseudo‐cubic eight‐coordination geometries, with dimethyl sulfoxide or N,N‐dimethylformamide as ligands. The ionic crystals showed polymorphic transformation depending on the synthetic or recrystallization conditions. As a method for exploring functionality, proton conductivities of the ionic crystals were measured under humidified conditions. The ionic crystals with high porosity, tertiary amine moieties, or coordination water exhibited high proton conductivities, and large activation energies indicate that protons are transferred mainly with water molecules via the vehicle mechanism.

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Integrating molecular design and crystal engineering approaches in non-humidified intermediate-temperature proton conductors based on a Dawson-type polyoxometalate and poly(ethylene glycol) derivatives

Abstract: Anionic metal−oxygen clusters known as polyoxometalates (POMs) have been widely researched as components of proton conductors. While proton conduction under non-humidified intermediate-temperature (100−250 °C) conditions is advantageous from the viewpoint...

Cited by 22 publications

References 58 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

Precise modification of poly(aryl ether ketone sulfone) proton exchange membranes with positively charged bismuth oxide clusters for high proton conduction performance

Syntheses, Polymorphic Transformations, and Functions of Ionic Crystals Based on Mononuclear Bismuth(III) Complexes and Polyoxometalates

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