Incorporation of Vanadium and Molybdenum into Yttrium-Arsenotungstates Supported by Amino Acid Ligands

FA Bagherjeri; C Ritchie; RW Gable; G Bryant; C Boskovic

Journal article

Incorporation of Vanadium and Molybdenum into Yttrium-Arsenotungstates Supported by Amino Acid Ligands

FA Bagherjeri, C Ritchie, RW Gable, G Bryant, C Boskovic

Australian Journal of Chemistry | CSIRO PUBLISHING | Published : 2020

DOI: 10.1071/CH19326

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Abstract

The preference for incorporation of molybdenum over tungsten into specific sites of a family of yttrium-arsenotungstates with amino acid ligands prompted exploration of the incorporation of other metals, affording three new vanadium-containing (V/W and V/Mo/W) analogues: K2(GlyH)10[As4(V2W2)W44Y4O160(Gly)8(H2O)12]·11Gly (1), (MBAH)9(L-NleH)3[As4(V2W2)W44Y4O160(L-Nle)8(H2O)12] (2), and (MBAH)9(L-NleH)3[As4(V2W2)Mo2W42Y4O160(L-Nle)8(H2O)12] (3) (Gly = glycine and L-Nle = l-norleucine, MBAH = 4-methylbenzylammonium). These hybrid polyoxometalates all possess a tetrametallic oxo-bridged {VIV2WVI2} central core surrounded by an amino acid-ligated cyclic metal-oxo framework. X-Ray photoelectron, U..

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University of Melbourne Researchers

Robert Gable Author

Colette Boskovic Author

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Awarded by Australian Research Council

Funding Acknowledgements

The authors thank the Australian Research Council for funding (DP0877704 and DP110100155) and Professor Lorenzo Sorace for his assistance with simulating the EPR spectra.