School of Chemistry - Research Publications

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    Incorporation of Vanadium and Molybdenum into Yttrium-Arsenotungstates Supported by Amino Acid Ligands
    Bagherjeri, FA ; Ritchie, C ; Gable, RW ; Bryant, G ; Boskovic, C (CSIRO PUBLISHING, 2020)
    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, UV-visible reflectance, and electron paramagnetic resonance spectroscopy, together with metal analysis, confirm the incorporation of vanadium into the polyoxometalates, while single crystal X-ray diffraction analysis supports the location of the vanadium atoms in the central core.
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    A photo-switchable molecular capsule: sequential photoinduced processes
    Choudhari, M ; Xu, J ; McKay, A ; Guerrin, C ; Forsyth, C ; Ma, HZ ; Goerigk, L ; O'Hair, RAJ ; Bonnefont, A ; Ruhlmann, L ; Aloise, S ; Ritchie, C (ROYAL SOC CHEMISTRY, 2022-11-30)
    The metastable trilacunary heteropolyoxomolybdate [PMo9O31(py)3]3- - {PMo9}; py = pyridine) and the ditopic pyridyl bearing diarylethene (DAE) (C25H16N2F6S2) self-assemble via a facile ligand replacement methodology to yield the photo-active molecular capsule [(PMo9O31)2(DAE)3]6-. The spatial arrangement and conformation of the three DAE ligands are directed by the surface chemistry of the molecular metal oxide precursor with exclusive ligation of the photo-active antiparallel rotamer to the polyoxometalate (POM) while the integrity of the assembly in solution has been verified by a suite of spectroscopic techniques. Electrocyclisation of the three DAEs occurs sequentially and has been investigated using a combination of steady-state and time-resolved spectroscopies with the discovery of a photochemical cascade whereby rapid photoinduced ring closure is followed by electron transfer from the ring-closed DAE to the POM in the latent donor-acceptor system on subsequent excitation. This interpretation is also supported by computational and detailed spectroelectrochemical analysis. Ring-closing quantum yields were also determined using a custom quantum yield determination setup (QYDS), providing insight into the impact of POM coordination on these processes.
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    Polyoxometalates as chemically and structurally versatile components in self-assembled materials
    Gao, Y ; Choudhari, M ; Such, GK ; Ritchie, C (ROYAL SOC CHEMISTRY, 2022-03-02)
    Polyoxometalates (POMs) are anionic molecular metal oxides with expansive diversity in terms of their composition, structure, nuclearity and charge. Within this vast collection of compounds are dominant structural motifs (POM platforms), that are amenable to significant chemical tuning with minimal perturbation of the inorganic oxide molecular structure. Consequently, this enables the systematic investigation of these compounds as inorganic additives within materials whereby structure and charge can be tuned independently i.e. [PW12O40]3- vs. [SiW12O40]4- while also investigating the impact of varying the charge balancing cations on self-assembly. The rich surface chemistry of POMs also supports their functionalisation by organic components to yield so-called inorganic-organic hybrids which will be the key focus of this perspective. We will introduce the modifications possible for each POM platform, as well as discussing the range of nanoparticles, microparticles and surfaces that have been developed using both surfactant and polymer building blocks. We will also illustrate important examples of POM-hybrids alongside their potential utility in applications such as imaging, therapeutic delivery and energy storage.
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    Hoch fluoreszierende Pyridiniumbetaine für die Lichtsammlung
    Xu, J ; Zhang, B ; Jansen, M ; Goerigk, L ; Wong, WWH ; Ritchie, C (Wiley, 2017-10-23)
    Abstract Die Ergebnisse experimenteller und theoretischer Untersuchungen der Eigenschaften von Pyridiniumenolaten werden vorgestellt, und ihre potenzielle Nutzbarkeit in Lichtsammelanwendungen, insbesondere lumineszierenden Solarkonzentratoren (LSCs), wird demonstriert. Synthesen, Strukturen, photophysikalische Charakterisierung und wellenfunktionsbasierte quantenchemische Studien für fünf Cyclobetaine werden präsentiert und die Leistungsfähigkeit einer LSC‐Apparatur, die eines dieser Cyclobetaine enthält, wird mit dem aktuellen Stand der Technik verglichen.
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    Highly Fluorescent Pyridinium Betaines for Light Harvesting
    Xu, J ; Zhang, B ; Jansen, M ; Goerigk, L ; Wong, WWH ; Ritchie, C (WILEY-V C H VERLAG GMBH, 2017-10-23)
    We report the findings of our experimental and theoretical investigations into the properties of pyridinium enolates and their potential utility in light-harvesting applications, such as in luminescent solar concentrators (LSCs). We present the synthesis, structures, photophysical characterization, and wavefunction-based quantum-chemical studies of five cyclobetaines. The performance of an LSC device incorporating one of these cyclobetaines is shown to be comparable to state-of-the-art devices.
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    Mixed-Metal Hybrid Polyoxometalates with Amino Acid Ligands: Electronic Versatility and Solution Properties
    Bagherjeri, FA ; Vonci, M ; Nagul, EA ; Ritchie, C ; Gable, RW ; Taylor, MB ; Bryant, G ; Guo, S-X ; Zhang, J ; Aparicio, PA ; Lopez, X ; Poblet, JM ; Boskovic, C (AMER CHEMICAL SOC, 2016-12-05)
    Eight new members of a family of mixed-metal (Mo,W) polyoxometalates (POMs) with amino acid ligands have been synthesized and investigated in the solid state and solution using multiple physical techniques. While the peripheral POM structural framework is conserved, the different analogues vary in nuclearity of the central metal-oxo core, overall redox state, metal composition, and identity of the zwitterionic α-amino acid ligands. Structural investigations reveal site-selective substitution of Mo for W, with a strong preference for Mo to occupy the central metal-oxo core. This core structural unit is a closed tetrametallic loop in the blue reduced species and an open trimetallic loop in the colorless oxidized analogues. Density functional theory calculations suggest the core as the favored site of reduction and reveal that the corresponding molecular orbital is much lower in energy for a tetra- versus trimetallic core. The reduced species are diamagnetic, each with a pair of strongly antiferromagnetically coupled MoV centers in the tetrametallic core, while in the oxidized complexes all Mo is hexavalent. Solution small-angle X-ray scattering and circular dichroism (CD) studies indicate that the hybrid POM is stable in aqueous solution on a time scale of days within defined concentration and pH ranges, with the stability enhanced by the presence of excess amino acid. The CD experiments also reveal that the amino acid ligands readily exchange with other α-amino acids, and it is possible to isolate the products of amino acid exchange, confirming retention of the POM framework. Cyclic voltammograms of the reduced species exhibit an irreversible oxidation process at relatively low potential, but an equivalent reductive process is not evident for the oxidized analogues. Despite their overall structural similarity, the oxidized and 2e-reduced hybrid POMs are not interconvertible because of the respective open- versus closed-loop arrangement in the central metal-oxo cores.
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    Photocoloration in Hybrid Amino Acid Polyoxometalates
    Bagherjeri, FA ; Ritchie, C ; Gable, RW ; Boskovic, C (WILEY-V C H VERLAG GMBH, 2019-01-31)
    The study of four different salts of a hybrid glycine–polyoxotungstate has revealed photocoloration that is dependent on the intramolecular hydrogen bonding between glycine ligand ammonium groups and the polyoxotungstate. Four compounds comprised of the hybrid polyoxometalate [As4{W3Y}W44Y4O159(Gly)8(H2O)12]9– (Gly = glycine) with glycinium, benzylammonium, 4‐methylbenzylammonium, or benzyltriethylammonium countercations have been synthesized and structurally characterized. In the solid state, two of the compounds exhibit coloration associated with photoreduction, cycling from white to blue under UV irradiation, and bleaching back to white following reoxidation in air. The ability of the hybrid POM to undergo photoreduction correlates with the orientation of the zwitterionic ammonium groups of the glycine ligands and the intramolecular hydrogen bonding to POM oxo ligands. The kinetics of coloration of these POMs follows a pseudo‐second‐order rate law.
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    Nichtwässrige mikrowellengestützte Synthesen von Deca‐ und Hexamolybdovanadaten
    Spillane, S ; Sharma, R ; Zavras, A ; Mulder, R ; Ohlin, CA ; Goerigk, L ; O'Hair, RAJ ; Ritchie, C (Wiley, 2017-07-10)
    Abstract Ein neuer Ansatz zur Synthese von Heterohexa‐ und Heterodecametallaten unter nichtwässrigen, mikrowellengestützten Reaktionsbedingungen wurde entwickelt. Die zwei neuartigen Molybdovanadate wurden isoliert und im festen sowie gelösten Zustand mittels Einkristall‐Röntgenbeugung, FT‐IR‐, UV/Vis‐ und multinuklearer NMR‐Spektroskopie sowie ESI‐MS charakterisiert. Die relativen Stabilitäten der möglichen Strukturisomere beider Polyoxometallatsysteme wurden mithilfe von dispersionskorrigierten DFT‐Rechnungen untersucht.
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    Non-Aqueous Microwave-Assisted Syntheses of Deca- and Hexa-Molybdovanadates
    Spillane, S ; Sharma, R ; Zavras, A ; Mulder, R ; Ohlin, CA ; Goerigk, L ; O'Hair, RAJ ; Ritchie, C (Wiley, 2017-07-10)
    We report a new approach for the synthesis of heterohexa‐ and heterodecametalates via the use of non‐aqueous, microwave‐assisted reaction conditions. The two novel molybdovanadates have been isolated and characterized in the solid and solution states using single‐crystal X‐ray diffraction, FT‐IR, UV/Vis, multinuclear NMR spectroscopy, and ESI‐MS. The relative stabilities of the possible structural isomers were probed using dispersion‐corrected DFT calculations for both polyoxometalate systems.
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    A Heteroaromatically Functionalized Hexamolybdate
    Healey, MR ; Best, SP ; GOERIGK, L ; Ritchie, C (MDPI - Open Access Publishing, 2015-05-08)
    A new heteroaromatic thiophene containing organoimido functionalized hexamolybdate has been synthesized and characterized in both solid form and solution. Structural analysis shows successful introduction of the organoimido ligand through replacement of one terminal oxo site on [Mo6O19]2− to yield the singly functionalized hexamolybdate. Spectroscopic and theoretical analysis indicates charge transfer between the inorganic and organic components, with a significantly red-shifted lowest lying transition of 399 nm vs. the parent Lindqvist ion of 325 nm. Additional characterization includes, thermal gravimetric analysis (TGA), infrared (IR), cyclic voltammetry (CV), nuclear magnetic resonance (NMR) and time-dependent density functional theory (TD-DFT) studies.