Your search keyword '"Laura Carthy"' showing total 6 results

1. Chemical Control of Spin Propagation between Heterometallic Rings

Author

George F. S. Whitehead, Thomas B. Faust, Eric J. L. McInnes, Andrea Candini, Floriana Tuna, John Machin, Wolfgang Wernsdorfer, Simon J. Teat, Laura Carthy, Richard E. P. Winpenny, Giulia Lorusso, V. Bellini, Christopher A. Muryn, David R. Allan, Harriott Nowell, Robin G. Pritchard, Stefano Carretta, Grigore A. Timco, Rebecca J. Docherty, David Collison, Jasbinder Kenyon, Marco Affronte, Institute of Nanosciences, Consiglio Nazionale delle Ricerche [Roma] (CNR), Circuits électroniques quantiques Alpes (QuantECA), Institut Néel (NEEL), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Centre National de la Recherche Scientifique (CNRS)-Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Centre National de la Recherche Scientifique (CNRS)-Université Joseph Fourier - Grenoble 1 (UJF), INFM and Dipartimento di Fisica, University of Parma = Università degli studi di Parma [Parme, Italie], School of Chemistry [Manchester], University of Manchester [Manchester], School of Chemistry and Photon Science Institute, CNR-INFM and Dipartimento di Fisica, Università di Modena e Reggio Emilia, CNR-INFM and Dipartimento di Fisica, and Photon Science Institute

Subjects

[PHYS]Physics [physics], Spintronics, Spins, 010405 organic chemistry, Chemistry, Organic Chemistry, Supramolecular chemistry, Aromaticity, General Chemistry, Quantum entanglement, 010402 general chemistry, 01 natural sciences, Inductive coupling, Catalysis, 0104 chemical sciences, 3. Good health, law.invention, supramolecular chemistry, magnetism theory and experiments, SINGLE-MOLECULE MAGNETS, COORDINATION POLYMERS, COMPLEXES, LIGANDS, DINUCLEAR, ANISOTROPY, CLUSTERS, EXCHANGE, COPPER(II), ABSORPTION, law, Chemical physics, Computational chemistry, Density functional theory, Electron paramagnetic resonance

Abstract

International audience; We present a synthetic, structural, theoretical, and spectroscopic study of a family of heterometallic ring dimers which have the formula [{Cr(7)NiF(3)(Etglu)(O(2)CtBu)(15)}(2)(NLN)], in which Etglu is the pentadeprotonated form of the sugar N-ethyl-d-glucamine, and NLN is an aromatic bridging diimine ligand. By varying NLN we are able to adjust the strength of the interaction between rings with the aim of understanding how to tune our system to achieve weak magnetic communication between the spins, a prerequisite for quantum entanglement. Micro-SQUID and EPR data reveal that the magnetic coupling between rings is partly related to the through-bond distance between the spin centers, but also depends on spin-polarization mechanisms and torsion angles between aromatic rings. Density functional theory (DFT) calculations allow us to make predictions of how such chemically variable parameters could be used to tune very precisely the interaction in such systems. For possible applications in quantum information processing and molecular spintronics, such precise control is essential.

Published

2011

2. Synthesis, spectroscopy and electronic structure of the vinylidene and alkynyl complexes [W(CCHR)(dppe)(η-C7H7)]+and [W(CCR)(dppe)(η-C7H7)]n+(n = 0 or 1)

Author

Laura Carthy, Hannah N. Lancashire, Mark W. Whiteley, Emma C. Fitzgerald, Mark A. Holden, Madeleine Helliwell, David Collison, Neil J. Brown, Paul J. Low, Joseph J. W. McDouall, and Ruth Edge

Subjects

Chemistry, Ligand, Radical, chemistry.chemical_element, Electronic structure, law.invention, Inorganic Chemistry, Metal, Crystallography, chemistry.chemical_compound, Deprotonation, law, Molybdenum, visual_art, visual_art.visual_art_medium, Phenyl group, Electron paramagnetic resonance

Abstract

The first examples of vinylidene complexes of the cycloheptatrienyl tungsten system [W(C=CHR)(dppe)(η-C₇H₇)](+) (dppe = Ph₂PCH₂CH₂PPh₂; R = H, 3; Ph, 4; C₆H₄-4-Me, 5) have been synthesised by reaction of [WBr(dppe)(η-C₇H₇)], 1, with terminal alkynes HC≡CR; a one-pot synthesis of 1 from [WBr(CO)₂(η-C₇H₇)] facilitates its use as a precursor. The X-ray structure of 4[PF₆] reveals that the vinylidene ligand substituents lie in the pseudo mirror plane of the W(dppe)(η-C₇H₇) auxiliary (vertical orientation) with the phenyl group located syn to the cycloheptatrienyl ring. Variable temperature ¹H NMR investigations on [W(C=CH₂)(dppe)(η-C₇H₇)][PF₆], 3, estimate the energy barrier to rotation about the W=C(α) bond as 62.5 ± 2 kJ mol⁻¹; approximately 10 kJ mol⁻¹ greater than for the molybdenum analogue. Deprotonation of 4 and 5 with KOBu(t) yields the alkynyls [W(C≡CR)(dppe)(η-C₇H₇)] (R = Ph, 6; C₆H₄-4-Me, 7) which undergo a reversible one-electron oxidation at a glassy carbon electrode in CH₂Cl₂ with E(½) values approximately 0.12 V negative of Mo analogues. The 17-electron radicals [6](+) and [7](+) have been investigated by spectroelectrochemical IR, UV-visible and EPR methods. The electronic structures of representative vinylidene (3) and alkynyl (6) complexes have been investigated at the B3LYP/Def2-SVP level. In both cases, electronic structure is characterised by a frontier orbital with significant metal d(z²)character and this dominates the structural and spectroscopic properties of the system.

Published

2011

3. Molecular nanomagnets with switchable coupling for quantum simulation

Author

Richard E. P. Winpenny, Giuseppe Amoretti, Simon J. Teat, Stefano Carretta, Grigore A. Timco, Laura Carthy, Paolo Santini, George F. S. Whitehead, Alessandro Chiesa, and Eva Pavarini

Subjects

Coupling, Multidisciplinary, Computer science, Molecular nanomagnets, Supramolecular chemistry, Quantum simulator, Bioinformatics, Topology, Article, Computer Science::Emerging Technologies, Quantum gate, Qubit, ddc:000, Quantum algorithm

Abstract

Molecular nanomagnets are attractive candidate qubits because of their wide inter- and intra-molecular tunability. Uniform magnetic pulses could be exploited to implement one- and two-qubit gates in presence of a properly engineered pattern of interactions, but the synthesis of suitable and potentially scalable supramolecular complexes has proven a very hard task. Indeed, no quantum algorithms have ever been implemented, not even a proof-of-principle two-qubit gate. Here we show that the magnetic couplings in two supramolecular {Cr7Ni}-Ni-{Cr7Ni} assemblies can be chemically engineered to fit the above requisites for conditional gates with no need of local control. Microscopic parameters are determined by a recently developed many-body ab-initio approach and used to simulate quantum gates. We find that these systems are optimal for proof-of-principle two-qubit experiments and can be exploited as building blocks of scalable architectures for quantum simulation.

Published

2014

4. Rings and threads as linkers in metal–organic frameworks and poly-rotaxanes

Author

Bryony Cross, Robin G. Pritchard, Richard E. P. Winpenny, Laura Carthy, George F. S. Whitehead, Grigore A. Timco, Simon J. Teat, Harapriya Rath, Sarah L. Heath, Christopher A. Muryn, Victoria A. Milway, and Antonio Fernandez

Subjects

chemistry.chemical_classification, Rotaxane, Bridging (networking), Chemistry, Metals and Alloys, Nanotechnology, General Chemistry, Polymer, Combinatorial chemistry, Catalysis, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Materials Chemistry, Ceramics and Composites, Metal-organic framework, Linker

Abstract

Coordination polymers and metal-organic rotaxane frameworks are reported where the organic linker is replaced by functionalised inorganic clusters that act as bridging ligands.

Published

2013

5. Synthesis, spectroscopy and electronic structure of the vinylidene and alkynyl complexes [W(C=CHR)(dppe)(η-C₇H₇)](+) and [W(C≡CR)(dppe)(η-C₇H₇](n+) (n = 0 or 1)

Author

Hannah N, Lancashire, Neil J, Brown, Laura, Carthy, David, Collison, Emma C, Fitzgerald, Ruth, Edge, Madeleine, Helliwell, Mark, Holden, Paul J, Low, Joseph J W, McDouall, and Mark W, Whiteley

Abstract

The first examples of vinylidene complexes of the cycloheptatrienyl tungsten system [W(C=CHR)(dppe)(η-C₇H₇)](+) (dppe = Ph₂PCH₂CH₂PPh₂; R = H, 3; Ph, 4; C₆H₄-4-Me, 5) have been synthesised by reaction of [WBr(dppe)(η-C₇H₇)], 1, with terminal alkynes HC≡CR; a one-pot synthesis of 1 from [WBr(CO)₂(η-C₇H₇)] facilitates its use as a precursor. The X-ray structure of 4[PF₆] reveals that the vinylidene ligand substituents lie in the pseudo mirror plane of the W(dppe)(η-C₇H₇) auxiliary (vertical orientation) with the phenyl group located syn to the cycloheptatrienyl ring. Variable temperature ¹H NMR investigations on [W(C=CH₂)(dppe)(η-C₇H₇)][PF₆], 3, estimate the energy barrier to rotation about the W=C(α) bond as 62.5 ± 2 kJ mol⁻¹; approximately 10 kJ mol⁻¹ greater than for the molybdenum analogue. Deprotonation of 4 and 5 with KOBu(t) yields the alkynyls [W(C≡CR)(dppe)(η-C₇H₇)] (R = Ph, 6; C₆H₄-4-Me, 7) which undergo a reversible one-electron oxidation at a glassy carbon electrode in CH₂Cl₂ with E(½) values approximately 0.12 V negative of Mo analogues. The 17-electron radicals [6](+) and [7](+) have been investigated by spectroelectrochemical IR, UV-visible and EPR methods. The electronic structures of representative vinylidene (3) and alkynyl (6) complexes have been investigated at the B3LYP/Def2-SVP level. In both cases, electronic structure is characterised by a frontier orbital with significant metal d(z²)character and this dominates the structural and spectroscopic properties of the system.

Published

2010

6. Synthesis, spectroscopy and electronic structure of the vinylidene and alkynyl complexes [W(CCHR)(dppe)(η-C7H7)]+and [W(CCR)(dppe)(η-C7H7)]n+(n = 0 or 1)Electronic supplementary information (ESI) available. CCDC reference numbers 791429(1·CH2Cl2) and 791430(4[PF6]). For ESI and crystallographic data in CIF or other electronic format see DOI: 10.1039/c0dt01150a

Author

Hannah N. Lancashire, Neil J. Brown, Laura Carthy, David Collison, Emma C. Fitzgerald, Ruth Edge, Madeleine Helliwell, Mark Holden, Paul J. Low, Joseph J. W. McDouall, and Mark W. Whiteley

Subjects

INORGANIC synthesis, SPECTRUM analysis, ELECTRONIC structure, DICHLOROETHYLENE, TUNGSTEN, CHEMICAL reactions, LIGANDS (Chemistry), RING formation (Chemistry)

Abstract

The first examples of vinylidene complexes of the cycloheptatrienyl tungsten system [W(CCHR)(dppe)(η-C7H7)]+(dppe = Ph2PCH2CH2PPh2; R = H, 3; Ph, 4; C6H4-4-Me, 5) have been synthesised by reaction of [WBr(dppe)(η-C7H7)], 1, with terminal alkynes HCCR; a one-pot synthesis of 1from [WBr(CO)2(η-C7H7)] facilitates its use as a precursor. The X-ray structure of 4[PF6] reveals that the vinylidene ligand substituents lie in the pseudo mirror plane of the W(dppe)(η-C7H7) auxiliary (vertical orientation) with the phenyl group located synto the cycloheptatrienyl ring. Variable temperature 1H NMR investigations on [W(CCH2)(dppe)(η-C7H7)][PF6], 3, estimate the energy barrier to rotation about the WCαbond as 62.5 ± 2 kJ mol−1; approximately 10 kJ mol−1greater than for the molybdenum analogue. Deprotonation of 4and 5with KOButyields the alkynyls [W(CCR)(dppe)(η-C7H7)] (R = Ph, 6; C6H4-4-Me, 7) which undergo a reversible one-electron oxidation at a glassy carbon electrode in CH2Cl2with E½values approximately 0.12 V negative of Mo analogues. The 17-electron radicals [6]+and [7]+have been investigated by spectroelectrochemical IR, UV-visible and EPR methods. The electronic structures of representative vinylidene (3) and alkynyl (6) complexes have been investigated at the B3LYP/Def2-SVP level. In both cases, electronic structure is characterised by a frontier orbital with significant metal dz2character and this dominates the structural and spectroscopic properties of the system. [ABSTRACT FROM AUTHOR]

Published

2011