Your search keyword '"Webb, JEA"' showing total 11 results

1. Understanding the performance of a paper-based UV exposure sensor: The photodegradation mechanism of brilliant blue FCF in the presence of TiO2 photocatalysts in both the solid state and solution

Author

Khiabani, PS, Soeriyadi, AH, Nam, EV, Peterson, JR, Webb, JEA, Thordarson, P, Donald, WA, Gooding, JJ, Khiabani, PS, Soeriyadi, AH, Nam, EV, Peterson, JR, Webb, JEA, Thordarson, P, Donald, WA, and Gooding, JJ

Abstract

Rationale: The decolouration of brilliant blue FCF by the action of titanium dioxide (TiO2) under ultraviolet (UV) exposure has been recently reported as the basis of a paper-based sensor for monitoring UV sun exposure. The mechanism of brilliant blue FCF photodegradation in the presence of the photocatalyst and the resulting photoproducts are thus far unknown. Methods: The UV-initiated photodegradation of brilliant blue FCF in the presence of TiO2 for both the aqueous and the solid state was investigated. Degradation in the solid state was observed using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-MS). Decomposition of the dye in the aqueous state was analyzed using liquid chromatography/mass spectrometry (LC/MS) and ultraviolet–visible (UV–Vis) spectroscopy. Results: After UV radiation exposure, the brilliant blue FCF base peak [M1 + NH4]+ (m/z calc. 766.194 found 766.194) decreased in the LC/MS chromatogram with a concomitant appearance of BB-FCF decomposition products involving the sequential loss of the N-ethyl and N-methylbenzene sulfonate (MBSA) groups, assigned as [M2 + H]+ (-MBSA, calc. 579.163 found 579.162), [M3 + H]+ (-MBSA, −Et, calc. 551.131 found 551.131), [M4 + H]+ (-2MBSA, calc. 409.158 found 409.158), [M5 + H]+ (-2MBSA, −Et, calc. 381.127 found 381.127). Ions [M2 + H]+ and [M3 + H]+ were also identified in the photodegradation products using MALDI-MS. Observation by UV–Vis indicated a decrease in the solution absorbance maxima and an associated blue-shift upon UV exposure in solution. Conclusions: The LC/MS analysis indicated two main oxidation processes. The most obvious was attack of the N-methylene, eliminating either ethyl or MBSA groups. The presence of the hydroxylated decomposition product M13 ([M13 + H]+, calc. 595.157 found 595.157) supported this assignment. In addition, the detection of photoproduct M8, proposed to be 3-((ethylamino)methyl)benzenesulfonic acid ([M8 + H]+, calc. 216.069 found 216.06

Published

2019

2. Observing the Reversible Single Molecule Electrochemistry of Alexa Fluor 647 Dyes by Total Internal Reflection Fluorescence Microscopy

Author

Fan, S, Webb, JEA, Yang, Y, Nieves, DJ, Gonçales, VR, Tran, J, Hilzenrat, G, Kahram, M, Tilley, RD, Gaus, K, Gooding, JJ, Fan, S, Webb, JEA, Yang, Y, Nieves, DJ, Gonçales, VR, Tran, J, Hilzenrat, G, Kahram, M, Tilley, RD, Gaus, K, and Gooding, JJ

Published

2019

3. Competing Energy Transfer Pathways in a Five-Chromophore Perylene Array

Author

Yasarapudi, VB, Frazer, L, Webb, JEA, Gallaher, JK, MacMillan, A, Falber, A, Thordarson, P, Schmidt, TW, Yasarapudi, VB, Frazer, L, Webb, JEA, Gallaher, JK, MacMillan, A, Falber, A, Thordarson, P, and Schmidt, TW

Abstract

A perylene (donor-dimer)-acceptor-(donor-dimer) pentamer array is synthesized to investigate the competition between excimer formation and Förster resonance energy transfer. Using time-resolved fluorescence, we show that, upon excitation, the isolated perylene dimer forms an excimer with a time constant of 4.3 ns. However, in the pentamer array, when either of two constituent dimers donate their energy to the acceptor fluorophore, the excimer energy trap is eliminated. The pentamer macromolecule shows broad absorption and reduced self-absorption, at some cost to fluorescence quantum yield.

Published

2018

4. Halogen bonding influences perylene-core twists in non-core substituted perylene tetraesters

Author

Wojciechowski, JP, Martin, AD, Bhadbhade, M, Webb, JEA, Thordarson, P, Wojciechowski, JP, Martin, AD, Bhadbhade, M, Webb, JEA, and Thordarson, P

Abstract

Halogen bonding has emerged as a popular synthon in supramolecular architectures. Its effects on supramolecular perylene systems however have been under investigated. We report X⋯O halogen bonding of perylene-3,4,9,10-tetracarboxylic tetra esters. This templates a twisted perylene core which affects its spectral properties. We show this interaction exists in both the solution and solid state through spectroscopy studies and single crystal analysis.

Published

2016

5. Limitations and design considerations for donor-acceptor systems in luminescent solar concentrators: The effect of coupling-induced red-edge absorption

Author

Macqueen, RW, Tayebjee, MJY, Webb, JEA, Falber, A, Thordarson, P, Schmidt, TW, Macqueen, RW, Tayebjee, MJY, Webb, JEA, Falber, A, Thordarson, P, and Schmidt, TW

Abstract

Luminescent solar concentrators (LSCs) use luminescence and waveguiding to concentrate photons within thin dielectric slabs for use in photovoltaic, lighting, and photobioreactor applications. Donor-acceptor systems of organic chromophores are widely used in LSCs to broaden the sunlight absorption range and attempt to reduce loss-inducing reabsorption by the emitting chromophore. We use raytrace simulations across a large parameter space to model the performance of LSCs containing two novel donor-acceptor trimers based on the perylene moiety. We find that under certain conditions, trimers outperform single-dye LSCs as expected. However, at higher concentrations, a slight increase in red-edge absorption by the trimers increases reabsorption and has a deleterious effect on LSC performance. This underscores the large effect that even small changes in the red edge can have, and may discourage the use of donor-acceptor schemes with high interchromophore coupling that promotes red-edge absorption. Finally, we show that for a LSC-PV pair, selecting a PV cell that is well-matched with the LSC emission spectrum has a large effect on the flux gain of the system, and that the systems studied here are well-matched to emerging PV technologies.

Published

2016

6. Quantifying highly efficient incoherent energy transfer in perylene-based multichromophore arrays

Author

Webb, JEA, Chen, K, Prasad, SKK, Wojciechowski, JP, Falber, A, Thordarson, P, Hodgkiss, JM, Webb, JEA, Chen, K, Prasad, SKK, Wojciechowski, JP, Falber, A, Thordarson, P, and Hodgkiss, JM

Abstract

Multichromophore perylene arrays were designed and synthesized to have extremely efficient resonance energy transfer. Using broadband ultrafast photoluminescence and transient absorption spectroscopies, transfer timescales of approximately 1 picosecond were resolved, corresponding to efficiencies of up to 99.98%. The broadband measurements also revealed spectra corresponding to incoherent transfer between localized states. Polarization resolved spectroscopy was used to measure the dipolar angles between donor and acceptor chromophores, thereby enabling geometric factors to be fixed when assessing the validity of Förster theory in this regime. Förster theory was found to predict the correct magnitude of transfer rates, with measured ∼2-fold deviations consistent with the breakdown of the point-dipole approximation at close approach. The materials presented, along with the novel methods for quantifying ultrahigh energy transfer efficiencies, will be valuable for applications demanding extremely efficient energy transfer, including fluorescent solar concentrators, optical gain, and photonic logic devices.

Published

2016

7. Depictions of the “Ideal Child” in Nineteenth-Century British Literature and Legislature

Author

Levene, Alysa and Webb, Jean

Published

2019

8. A Complete Identity: The Youthful Hero in the Work of G. A. Henty and George MacDonald by Rachel E. Johnson (review)

Author

Webb, Jean

Published

2015

9. The Theatre of Sean O’Casey by James Moran (review)

Author

Webb, Jean

Published

2015

10. Observing the Reversible Single Molecule Electrochemistry of Alexa Fluor 647 Dyes by Total Internal Reflection Fluorescence Microscopy.

Author

Fan S, Webb JEA, Yang Y, Nieves DJ, Gonçales VR, Tran J, Hilzenrat G, Kahram M, Tilley RD, Gaus K, and Gooding JJ

Subjects

Molecular Structure, Carbocyanines chemistry, Electrochemical Techniques methods, Microscopy, Fluorescence methods, Single Molecule Imaging methods

Abstract

Alexa Fluor 647 is a widely used fluorescent probe for cell bioimaging and super-resolution microscopy. Herein, the reversible fluorescence switching of Alexa Fluor 647 conjugated to bovine serum albumin (BSA) and adsorbed onto indium tin oxide (ITO) electrodes under electrochemical potential control at the level of single protein molecules is reported. The modulation of the fluorescence as a function of potential was observed using total internal reflectance fluorescence (TIRF) microscopy. The fluorescence intensity of the Alexa Fluor 647 decreased, or reached background levels, at reducing potentials but returned to normal levels at oxidizing potentials. These electrochemically induced changes in fluorescence were sensitive to pH despite that BSA-Alexa Fluor 647 fluorescence without applied potential is insensitive to pH between values of 4-10. The observed pH dependence indicated the involvement of electron and proton transfer in the fluorescence switching mechanism., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

11. Understanding the performance of a paper-based UV exposure sensor: The photodegradation mechanism of brilliant blue FCF in the presence of TiO 2 photocatalysts in both the solid state and solution.

Author

Khiabani PS, Soeriyadi AH, Nam EV, Peterson JR, Webb JEA, Thordarson P, Donald WA, and Gooding JJ

Abstract

Rationale: The decolouration of brilliant blue FCF by the action of titanium dioxide (TiO 2 ) under ultraviolet (UV) exposure has been recently reported as the basis of a paper-based sensor for monitoring UV sun exposure. The mechanism of brilliant blue FCF photodegradation in the presence of the photocatalyst and the resulting photoproducts are thus far unknown., Methods: The UV-initiated photodegradation of brilliant blue FCF in the presence of TiO 2 for both the aqueous and the solid state was investigated. Degradation in the solid state was observed using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-MS). Decomposition of the dye in the aqueous state was analyzed using liquid chromatography/mass spectrometry (LC/MS) and ultraviolet-visible (UV-Vis) spectroscopy., Results: After UV radiation exposure, the brilliant blue FCF base peak [M1 + NH 4 ] + (m/z calc. 766.194 found 766.194) decreased in the LC/MS chromatogram with a concomitant appearance of BB-FCF decomposition products involving the sequential loss of the N-ethyl and N-methylbenzene sulfonate (MBSA) groups, assigned as [M2 + H] + (-MBSA, calc. 579.163 found 579.162), [M3 + H] + (-MBSA, -Et, calc. 551.131 found 551.131), [M4 + H] + (-2MBSA, calc. 409.158 found 409.158), [M5 + H] + (-2MBSA, -Et, calc. 381.127 found 381.127). Ions [M2 + H] + and [M3 + H] + were also identified in the photodegradation products using MALDI-MS. Observation by UV-Vis indicated a decrease in the solution absorbance maxima and an associated blue-shift upon UV exposure in solution., Conclusions: The LC/MS analysis indicated two main oxidation processes. The most obvious was attack of the N-methylene, eliminating either ethyl or MBSA groups. The presence of the hydroxylated decomposition product M13 ([M13 + H] + , calc. 595.157 found 595.157) supported this assignment. In addition, the detection of photoproduct M8, proposed to be 3-((ethylamino)methyl)benzenesulfonic acid ([M8 + H] + , calc. 216.069 found 216.069), indicates an aryl-oxidative elimination. The absence of the aryl-hydroxy products normally expected to accompany the formation of M8 is proposed to be due to TiO 2 -binding catechol-like derivatives, which are then removed upon filtration., (© 2019 John Wiley & Sons, Ltd.)

Published

2019