Journal
NANO RESEARCH
Volume 15, Issue 4, Pages 3628-3637Publisher
TSINGHUA UNIV PRESS
DOI: 10.1007/s12274-021-3940-8
Keywords
polyoxometalate; lanthanide-inserted arsenotungstate; polyoxometalate-based conductive film
Categories
Funding
- National Natural Science Foundation of China [21871077, 21671054, 21771052, 22071042, 22171070, 91122028, 21831001]
- Program for Innovation Teams in Science and Technology in Universities of Henan Province [20IRTSTHN004]
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Cluster-based functional materials have shown remarkable progress in exploring and constructing novel nanosized gigantic polyoxometalate (POM) aggregates. A nanoscale hexameric arsenotungstate aggregate was successfully synthesized using a combined synthetic strategy, showcasing excellent electrochemical performance.
Cluster-based functional materials have made remarkable progress owing to their wonderful structures and distinctive physicochemical performances, one of on-going advancements of which is basically driven by synthetic chemistry of exploring and constructing novel nanosized gigantic polyoxometalate (POM) aggregates. In this article, an unprecedented nanoscale hexameric arsenotungstate aggregate Na9K16H4[Er0.5K0.5(H2O)(7)][Er5W10O26(H2O)(14)][B-alpha-AsW9O33](6)center dot 102H(2)O (1) has been synthesized by the combined synthetic strategy of simultaneously using the arsenotungstate precursor and simple tungstate material in a highly acidic aqueous solution. The {[Er5W10O26(H2O)(14)][B-alpha-AsW9O33](6)}(31-) polyanion in 1 consists of an intriguing dumbbell-shaped pentadeca-nuclear W-Er heterometal {Er(5)W(10)O(2)6(H2O)(14)}(23+) cluster connecting six trilacunary [B-alpha-AsW9O33](9-) moieties, which has never been seen previously. Furthermore, through electropolymerization of 1 and pyrrole on the conductive substrate, a thickness-controllable and robust 1-PPY (PPY = polypyrrole) hybrid film was successfully prepared, which represents the first POM-PPY film assembled from high-nuclear lanthanide (Ln) encapsulated POM and PPY hitherto. The 1-PPY film-based electrochemical biosensor exhibits a favorable recognition performance for ochratoxin A in multiple media. This work not only provides a feasible combined synthetic strategy of the POM precursor and simple tungstate material for constructing complicated multi-Ln-inserted POM aggregates, but also offers a promising electrochemical platform constructed from POM-based conductive films for identifying trace biomolecules in complex environments.
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