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518 results on '"Cooke, Graeme"'

51. Biomacromolecular stereostructure mediates mode hybridization in chiral plasmonic nanostructures

Author

Jack, Calum, Karimullah, Affar S., Leyman, Ross, Tullius, Ryan, Rotello, Vincent M., Cooke, Graeme, Gadegaard, Nikolaj, Barron, Laurence D., and Kadodwala, Malcolm

Subjects
QD
Abstract

The refractive index sensitivity of plasmonic fields has been exploited for over 20 years in analytical technologies. While this sensitivity can be used to achieve attomole detection levels, they are in essence binary measurements that sense the presence/absence of a predetermined analyte. Using plasmonic fields, not to sense effective refractive indices but to provide more "granular" information about the structural characteristics of a medium, provides a more information rich output, which affords opportunities to create new powerful and flexible sensing technologies not limited by the need to synthesize chemical recognition elements. Here we report a new plasmonic phenomenon that is sensitive to the biomacromolecular structure without relying on measuring effective refractive indices. Chiral biomaterials mediate the hybridization of electric and magnetic modes of a chiral solid-inverse plasmonic structure, resulting in a measurable change in both reflectivity and chiroptical properties. The phenomenon originates from the electric-dipole–magnetic-dipole response of the biomaterial and is hence sensitive to biomacromolecular secondary structure providing unique fingerprints of α-helical, β-sheet, and disordered motifs. The phenomenon can be observed for subchiral plasmonic fields (i.e., fields with a lower chiral asymmetry than circularly polarized light) hence lifting constraints to engineer structures that produce fields with enhanced chirality, thus providing greater flexibility in nanostructure design. To demonstrate the efficacy of the phenomenon, we have detected and characterized picogram quantities of simple model helical biopolymers and more complex real proteins.

Published
2016

52. Complexation of thermoresponsive dialkoxynaphthalene end-functionalized poly(oligoethylene glycol acrylate)s with CBPQT4+in water

Author

Yeniad, Bahar, Ryskulova, Kanykei, Fournier, David, Lyskawa, Joël, Cooke, Graeme, Woisel, Patrice, and Hoogenboom, Richard

Abstract

Four different oligoethylene glycol acrylates (OEGA), namely hydroxypropylacrylate (HPA), methoxy diethylene glycol acrylate (mDEGA), methoxy triethylene glycol acrylate (mTEGA) and 2-hydroxyethylacrylate (HEA) were homopolymerized via RAFT polymerization employing a naphthalene functionalized chain transfer agent resulting in thermoresponsive naphthalene-functionalized POEGAs with different hydrophilicities. Supramolecular inclusion complexes of these POEGAs with electron-deficient cyclophane cyclobis(paraquat-p-phenylene) tetrachloride (CBPQT4+) in water were studied. The association constants (Ka) were determined to study the effect that polymer hydrophilicity has on the Ka and results indicated that the nature of the polymer did not significantly influence the complexation strength and the association is mostly enthalpy driven. The impact of temperature on the host–guest complexes was also investigated. A continuous partial thermally induced dissociation of complexes was observed upon raising the temperature with a more distinct decrease in complexation around the cloud point temperature (TCP) of the POEGA employed, indicating the importance of the polymer phase transition for tuning the recognition properties of dialkoxynaphthalene end-decorated poly(oligoethylene glycol acrylate)s in water.

Published
2016

53. Spatial control of chemical processes on nanostructures through nano-localized water heating

Author

Jack, Calum, Karimullah, Affar S., Tullius, Ryan, Khorashad, Larousse Khosravi, Rodier, Marion, Fitzpatrick, Brian, Barron, Laurence D., Gadegaard, Nikolaj, Lapthorn, Adrian, Rotello, Vincent M., Cooke, Graeme, Govorov, Alexander O., and Kadodwala, Malcolm

Subjects
Science, Physics::Optics, Article
Abstract

Optimal performance of nanophotonic devices, including sensors and solar cells, requires maximizing the interaction between light and matter. This efficiency is optimized when active moieties are localized in areas where electromagnetic (EM) fields are confined. Confinement of matter in these ‘hotspots' has previously been accomplished through inefficient ‘top-down' methods. Here we report a rapid ‘bottom-up' approach to functionalize selective regions of plasmonic nanostructures that uses nano-localized heating of the surrounding water induced by pulsed laser irradiation. This localized heating is exploited in a chemical protection/deprotection strategy to allow selective regions of a nanostructure to be chemically modified. As an exemplar, we use the strategy to enhance the biosensing capabilities of a chiral plasmonic substrate. This novel spatially selective functionalization strategy provides new opportunities for efficient high-throughput control of chemistry on the nanoscale over macroscopic areas for device fabrication., It is generally believed that rapid dissipation means that spatially precise heating is not feasible via thermoplasmonic means. Here, the authors induce highly localized heating around plasmonic nanostructures by pulsed laser irradiation, which effects chemical modification of surface bound molecules.

Published
2016

54. Realization of a 'lockable' molecular switch via pH- and redox-modulated cyclization

Author

Richmond, Craig J., Parenty, Alexis D.C., Yu-Fei Song, Cooke, Graeme, and Cronin, Leroy

Subjects
Ring formation (Chemistry) -- Analysis, Hydrogen-ion concentration -- Evaluation, Oxidation-reduction reaction -- Analysis, Chemistry
Abstract

A switchable organic system involving four distinct states is developed, which can be interconverted by using both pH and redox chemistry as control parameters. The results have shown that the pH-modulated cyclization and phase-transfer process between the 1-isobutyl-1,2,3,12b-tetrahydroimidazo[1,2-f]phenanthridine (TIP) and 5-[2-(isobutylamino)ethyl]phenanthridinium (AEP) states is quantitative and repeatable without any major loss in activity and that the reduction or oxidation might be used for locking out these states against acid-base-induced changes.

Published
2008

56. Organic solar cells based on acceptor-functionalized diketopyrrolopyrrole derivatives

Author

Ghosh, Sanjay Sanatan, Serrano, Luis A., Ebenhoch, Bernd, Rotello, Vince, Cooke, Graeme, Samuel, Ifor David William, University of St Andrews. School of Physics and Astronomy, and University of St Andrews. Condensed Matter Physics

Subjects
QC Physics, Acceptor-functionalised, PC71BM, Solar cell, NDAS, Small molecule, QC, DPP
Abstract

This work was supported by the EPSRC (grants EP/E036244 and EP/I00343X). The synthesis and characterization of three solution processable diketopyrrolopyrrole (DPP) derivatives featuring acceptor units attached to the core by alkyne linker units is reported. Cyclic voltammetry and DFT calculations indicate that the DPP derivatives possess similar HOMO and LUMO energies. Solar cells were fabricated by blending the synthesised DPP derivatives with PC71BM. The influence of donor:acceptor blend ratio, film thickness, annealing temperature and annealing time on device performance was studied. Differences in device performance were related to atomic force microscopy measurements of the films. The highest power conversion efficiency of 1.76% was achieved for the DPP derivative functionalized with an aldehyde electron withdrawing group with 1:0.7 donor:acceptor ratio when active layer was annealed for 10 minutes at 110 oC. Publisher PDF

Published
2015

57. The impact of driving force on electron transfer rates in photovoltaic donor-acceptor blends

Author

Ward, Alexander J., Ruseckas, Arvydas, Kareem, Mohanad Mousa, Ebenhoch, Bernd, Serrano, Luis A., Al-Eid, Manal, Fitzpatrick, Brian, Rotello, Vincent M., Cooke, Graeme, and Samuel, Ifor D.W.

Abstract

The effect of acceptor energy level on electron transfer rate in blends of the polymer solar-cell material poly[[4,8-bis[(2-ethylhexyl)oxy]benzo[1,2-b:4,5-b′]dithiophene-2,6-diyl][3-fluoro-2-[(2-ethylhexyl)carbonyl]thieno[3,4-b]thiophenediyl]] (PTB7) is studied using time-resolved fluorescence. Fast electron transfer in less than 2 ps is observed for a driving force between 0.2 and 0.6 eV and the electron transfer is slower outside this range. This dependence is described by Marcus theory with a reorganization energy of ≈0.4 eV.

Published
2015

58. Low cost triazatruxene hole transporting material for >20% efficiency perovskite solar cells.

Author

Connell, Arthur, Wang, Zhiping, Lin, Yen-Hung, Greenwood, Peter C., Wiles, Alan A., Jones, Eurig W., Furnell, Leo, Anthony, Rosie, Kershaw, Christopher P., Cooke, Graeme, Snaith, Henry J., and Holliman, Peter J.

Abstract

Organic hole-transporting materials (HTM) have shown excellent ability in achieving high efficiency perovskite solar cells. However, their high cost significantly limits their applications in scaling-up perovskite solar cells. Here, we report an efficient, low-cost HTM, called TAT-tBuSty, comprising a central triazatruxene moiety with 3 terminal tert-butoxy styrene groups and 3 hexyl side chains on the indole nitrogen. For the first time, we use an inexpensive liquid precursor to attach the donor ligand to the molecule. This enables purification of the HTM using a silica plug and recrystallization without the need for complicated column chromatography, which is typically required to purify solid-precursor-prepared HTMs. We estimate that the cost for the purified TAT-tBuSty is $69.90 g−1, which is 35% cheaper than the widely-used 2,2′7,7′-tetrakis-(N,N-di-p-methoxyphenyl-amine)-9,9′-spirobifluorene (spiro-OMeTAD; ca. $112.05 g−1). Using this low-cost TAT-tBuSty as the HTM in a caesium-formamidinium mixed-cation perovskite solar cell, we have successfully achieved a champion power conversion efficiency (PCE) of 20.3% (19.4% stabilized efficiency), which is comparable to the efficiency of devices using the reference spiro-OMeTAD HTM. Our work is crucial for up-scaling of next-generation high-performance metal-halide perovskite solar cells. [ABSTRACT FROM AUTHOR]

Published
2019
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59. Superchiral Plasmonic Phase Sensitivity for Fingerprinting of Protein Interface Structure

Author

Tullius, Ryan, Platt, Geoffrey W., Khosravi Khorashad, Larousse, Gadegaard, Nikolaj, Lapthorn, Adrian J., Rotello, Vincent M., Cooke, Graeme, Barron, Laurence D., Govorov, Alexander O., Karimullah, Affar S., and Kadodwala, Malcolm

Abstract

The structure adopted by biomaterials, such as proteins, at interfaces is a crucial parameter in a range of important biological problems. It is a critical property in defining the functionality of cell/bacterial membranes and biofilms (i.e., in antibiotic-resistant infections) and the exploitation of immobilized enzymes in biocatalysis. The intrinsically small quantities of materials at interfaces precludes the application of conventional spectroscopic phenomena routinely used for (bio)structural analysis due to a lack of sensitivity. We show that the interaction of proteins with superchiral fields induces asymmetric changes in retardation phase effects of excited bright and dark modes of a chiral plasmonic nanostructure. Phase retardations are obtained by a simple procedure, which involves fitting the line shape of resonances in the reflectance spectra. These interference effects provide fingerprints that are an incisive probe of the structure of interfacial biomolecules. Using these fingerprints, layers composed of structurally related proteins with differing geometries can be discriminated. Thus, we demonstrate a powerful tool for the bioanalytical toolbox.

Published
2024
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60. Tetrathiafulvalene End-Functionalized Poly(N-isopropylacrylamide): A New Class of Amphiphilic Polymer for the Creation of Multistimuli Responsive Micelles

Author

Bigot, Julien, Charleux, Bernadette, Cooke, Graeme, Delattre, François, Fournier, David, Lyskawa, Joël, Sambe, Léna, Stoffelbach, François, and Woisel, Patrice

Abstract

In this article, we report the formation of micelles from a tetrathiafulvalene (TTF) end-functionalized poly(N-isopropylacrylamide) (poly(NIPAM)) derivative (1). We have determined the critical aggregation concentration (CAC) and average diameter of the micelles using fluorescence spectroscopy and dynamic light scattering experiments, respectively. We have exploited the NIPAM backbone of the polymer to thermally transform the swollen hydrophilic poly(NIPAM) derivative to a more globular hydrophobic state at the lower critical solution temperature (LCST). Finally, we have shown that we can exploit the chemical oxidation and complexation properties of the TTF unit to disrupt the micelle architecture to release the hydrophobic dye Nile Red from the interior of the micelle.

Published
2024
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61. Recognition-Mediated Hydrogel Swelling Controlled by Interaction with a Negative Thermoresponsive LCST Polymer

Author

Belal, Khaled, primary, Stoffelbach, François, additional, Lyskawa, Joël, additional, Fumagalli, Matthieu, additional, Hourdet, Dominique, additional, Marcellan, Alba, additional, Smet, Lieselot De, additional, de la Rosa, Victor R., additional, Cooke, Graeme, additional, Hoogenboom, Richard, additional, and Woisel, Patrice, additional

Published
2016
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65. Synthesis and Xharacterization of naphthalenediimide-functionalized flavin derivatives

Author

Zainalabdeen, Nada, Fitzpatrick, Brian, Kareem, Mohanad Mousa, Nandwana, Vikas, Cooke, Graeme, and Rotello, Vincent M.

Subjects
heterocyclic compounds
Abstract

Two acceptor–acceptor dyads have been synthesized featuring a flavin moiety and a naphthalenediimide (NDI) unit. The NDI unit is linked to the flavin through a short spacer group via either the N(3) or N(10) positions of the flavin. We have investigated the UV-Vis and redox properties of these multi-electron accepting systems which indicate that these materials display the collective properties of their component systems. Fluorescence spectroscopy measurements have revealed that their emission properties are dominated by the flavin unit.

Published
2013

73. Dendron-Anchored Organocatalysts: The Asymmetric Reduction Of Imines With Trichlorosilane, Catalysed By An Amino Acid-Derived Formamide Appended To A Dendron

Author

Figlus, Marek, Caldwell, Stuart T., Walas, Dawid, Yesilbag, Gulen, Cooke, Graeme, Kocovsky, Pavel, Malkov, Andrei V., and Sanyal, Amitav

Abstract

Asymmetric reduction of ketimines 1a-f with trichlorosilane can be catalysed by the Lewis-basic N-methylvaline-derived formamide anchored to a soluble dendron (11c) with good enantioselectivity (

Published
2010

82. Protein-mediated dethreading of a biotin-functionalised pseudorotaxane

Author

Caldwell, Stuart T., primary, Maclean, Catherine, additional, Riehle, Mathis, additional, Cooper, Alan, additional, Nutley, Margaret, additional, Rabani, Gouher, additional, Fitzpatrick, Brian, additional, Rotello, Vincent M., additional, Smith, Brian O., additional, Khaled, Belal, additional, Woisel, Patrice, additional, and Cooke, Graeme, additional

Published
2014
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85. Fluorocarbonylferrocene. A versatile intermediate for ferrocene esters and amides

Author

Galow, Trent H., Rodrigo, Jason, Cleary, Katherine, Cooke, Graeme, and Rotello, Vincent M.

Subjects
Catalysts -- Research, Acid-base chemistry -- Research, Organofluorine compounds -- Research, Biological sciences, Chemistry
Abstract

The use of the corresponding acid fluoride from chlorocarbonylferrocene as a synthetic intermediate in the synthesis of ferrocenyl esters and amides was investigated. The results showed that the generation of the acid fluoride occurred under mild conditions and proceeded with a high level of functional group compatibility. Reactions with alcohol were observed to be sluggish, even in the presence of excess alcohol. Overall, fluorocarbonylferrocene proved to be a useful and versatile synthetic intermediate for the formation of amides and esters.

Published
1999

86. Every one of us should be guaranteed a job

Author

Cooke, Graeme and Purnell, James

Subjects
Unemployment, Banking, finance and accounting industries, Business, Business, international
Abstract

We want to propose a big idea. The government should guarantee everyone a job, to end long-term unemployment. A pipe dream? Well, the government is already doing this for young [...]

Published
2009

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