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A coordination network that catalyzes O 2 -based oxidations. He, W. Entangled structures in polyoxometalate-based coordination polymers. Hill, C. Introduction polyoxometalates—multicomponent molecular vehicles to probe fundamental issues and practical problems. Wedd Oxford: Elsevier Ltd 4, — New complexes and materials for O 2 -based oxidations. A Chem. Clerici, and O. Homogeneous catalysis by transition metal oxygen anion clusters. Hu, M. A click chemistry approach to the efficient synthesis of polyoxometalate—polymer hybrids with well-defined structures.

Ji, Y. Polyoxometalate-functionalized nanocarbon materials for energy conversion, energy storage and sensor systems. Energy Environ. Kinnan, M. Nerve agent degradation with polyoxoniobates. Kozhevnikov, I. Catalysis by heteropoly acids and multicomponent polyoxometalates in liquid-phase reactions. Catalysis by Polyoxometalates. Chichester: Wiley. PubMed Abstract. Kwon, T. Pillaring of layered double hydroxides LDH's by polyoxometalate anions. Lauinger, S. Stabilization of polyoxometalate water oxidation catalysts on hematite by atomic layer deposition.

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ACS Appl. Interfaces 9, — High stability of immobilized polyoxometalates on TiO 2 nanoparticles and nanoporous films for robust, light-induced water oxidation. Cronin and R. Eldik Oxford: Elsevier , 69, — Launay, J. Reduction of the metatungstate ion. CrossRef Full Text. Li, J. Frontiers of water oxidation the quest for true catalysts. Li, T. Catalysis Long, D.

Polyoxometalate clusters, nanostructures and materials: from self assembly to designer materials and devices. Polyoxometalates building blocks for functional nanoscale systems. Luong, T. Lv, H.

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A Cu-based polyoxometalate catalyst for efficient catalytic hydrogen evolution. A noble-metal-free, tetra-nickel polyoxotungstate catalyst for efficient photocatalytic hydrogen evolution. Ma, F. A sodalite-type porous metal-organic framework with polyoxometalate templates: adsorption and decomposition of dimethyl methylphosphonate.

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Macdonell, A. Miras, H. Engineering polyoxometalates with emergent properties. Mizuno, N.

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Heterogeneous catalysis. Moffat, J. Mondloch, J. Destruction of chemical warfare agents using metal—organic frameworks. Nlate, S. Dendritic polyoxometalate hybrids: efficient and recoverable catalysts for oxidation reactions. Nyman, M. Small-angle X-ray scattering to determine solution speciation of metal-oxo clusters. Okuhara, T. Catalytic chemistry of heteropoly compounds. Omwoma, S.


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Recent advances on polyoxometalates intercalated layered double hydroxides from synthetic approaches to functional material applications. Environmentally benign polyoxometalate materials. Orlandi, M. Ruthenium polyoxometalate water splitting catalyst very fast hole scavenging from photogenerated oxidants.


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    Sambrook, M. Supramolecular chemistry and chemical warfare agents from fundamentals of recognition to catalysis and sensing. Sara, G. Solution speciation and stability of cobalt-polyoxometalate water oxidation catalysts by X-ray scattering. Sartorel, A.

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    Sivakumar, R. C Photochem. Song, J. A multi-unit catalyst with synergistic stability and reactivity A polyoxometalate-metal organic framework for aerobic decontamination.

    Song, Y. Recent advances on polyoxometalate-based molecular and composite materials.

    Steens, N. Hydrolytic cleavage of DNA-model substrates promoted by polyoxovanadates.

    Dalton Trans. Stracke, J. Electrocatalytic water oxidation beginning with the cobalt polyoxometalate [Co4 H2O 2 PW9O34 2]10— identification of heterogeneous CoOx as the dominant catalyst. Distinguishing homogeneous from heterogeneous water oxidation catalysis when beginning with polyoxometalates. Hybrid energy storage high voltage aqueous supercapacitors based on activated carbon-phosphotungstate hybrid materials.