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Kathryn Gillow: Publications
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[1]
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Adaptive Finite Element Methods in Electrochemistry
D.J. Gavaghan, K. Gillow and E. Süli
Langmuir, Vol. 22, No. 25, pages 10666—10682. 2006.
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[2]
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Finite Element Solution of A Membrane Covered Electrode Problem
K. Gillow, D.J. Gavaghan and E. Süli
Journal of Electroanalytical Chemistry, Vol. 587, No. 1, pages 18—24. 2006.
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[3]
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Computation of Currents at Microelectrodes using hp-DGFEM
K. Gillow, D.J. Gavaghan and E. Süli
Journal of Electroanalytical Chemistry, Vol. 587, No. 1, pages 1—17. 2006.
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[4]
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Fourier Transformed Large Amplitude Square Wave Voltammetry as an Alternative to Impedance Spectroscopy: Evaluation of Resistance, Capacitance and Electrode Kinetic Effects via a Heuristic Approach
A.A. Sher et al.
Electroanalysis, Vol. 17, No. 15--16, pages 1450—1462. 2005.
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[5]
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Resistance, Capacitance and Electrode Kinetic Effects in Fourier Transformed Large Amplitude Sinusoidal Voltammetry: The Emergence of Powerful and Intuitively Obvious Tools for Recognition of Patterns of Behaviour
A.A. Sher et al.
Analytical Chemistry, Vol. 76, No. 21, pages 6214-6228. 2004.
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[6]
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Simulation of Linear Sweep Voltammetry Using an Adaptive Finite Element Algorithm
K. Harriman, D.J. Gavaghan and E. Süli
Journal of Electroanalytical Chemistry, Vol. 573, No. 1, pages 169—174. 2004.
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[7]
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Time dependent EC', ECE and EC2E mechanisms at microdisc electrodes: simulations using adaptive finite element methods
K. Harriman, D.J. Gavaghan and and E. Süli
Journal of Electroanalytical Chemistry, Vol. 569, No. 1, pages 35—46. 2004.
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[8]
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Finite Element Simulation of a Membrane Covered Electrode Problem
K. Harriman, D.J. Gavaghan and E. Süli
No. NA04/21, Technical Report, Oxford University Computing Laboratory. 2004.
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[9]
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Application of hpDGFEM to Mechanisms at Channel Microband Electrodes
K. Harriman, D.J. Gavaghan and E. Süli
No. NA04/20, Technical Report, Oxford University Computing Laboratory. 2004.
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[10]
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Approximation of Linear Functionals Using an hp-Adaptive Discontinuous Galerkin Finite Element Method
K. Harriman, D.J. Gavaghan and E. Süli
No. NA04/19, Technical Report, Oxford University Computing Laboratory. 2004.
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[11]
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The Importance of Adjoint Consistency in the Approximation of Linear Functionals Using the Discontinuous Galerkin Finite Element Method
K. Harriman, D.J. Gavaghan and E. Süli
No. NA04/18, Technical Report, Oxford University Computing Laboratory. 2004.
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[12]
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Adaptive Finite Element Simulation of Chronoamperometry at Microdisc Electrodes
K. Harriman, D.J. Gavaghan and E. Süli
Electrochemistry Communications, Vol. 5, No. 7, pages 519—529. 2003.
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[13]
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hp-Version Discontinuous Galerkin Methods with Interior Penalty for Partial Differential Equations with Nonnegative Characteristic Form
K. Harriman et al.
In C.-W. Shu, T. Tang and S.-Y. Cheng, editors, Recent Advances in Scientific Computing and Partial Differential Equations 2003.
Contemporary Mathematics Vol. 330, pp. 89—119, AMS.
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[14]
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Finite Element Simulation of Electrochemically Reversible, Quasi-Reversible and Irreversible Linear Sweep Voltammetry at the Wall Tube Electrode
O.V. Klymenko et al.
Journal of Electroanalytical Chemistry, Vol. 531, No. 1, pages 25—31. 2002.
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[15]
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hp-Version Discontinuous Galerkin Methods with Interior Penalty for Partial Differential Equations with Nonnegative Characteristic Form
K. Harriman et al.
No. NA02/21, Technical Report, Oxford University Computing Laboratory. 2002.
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[16]
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Adaptive Finite Element Simulation of Currents at Microelectrodes to Guaranteed Accuracy: ECE and EC2E Mechanisms at Channel Microband Electrodes
K. Harriman et al.
Electrochemistry Communications, Vol. 2, No. 8, pages 576—585. 2000.
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[17]
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Adaptive Finite Element Simulation of Currents at Microelectrodes to Guaranteed Accuracy: An E Reaction at a Channel Microband Electrode
K. Harriman et al.
Electrochemistry Communications, Vol. 2, No. 8, pages 567—575. 2000.
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[18]
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Adaptive Finite Element Simulation of Currents at Microelectrodes to Guaranteed Accuracy: First Order EC' Mechanism at Inlaid and Recessed Discs
K. Harriman et al.
Electrochemistry Communications, Vol. 2, No. 3, pages 163-170. 2000.
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[19]
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Adaptive Finite Element Simulation of Currents at Microelectrodes to Guaranteed Accuracy: Theory
K. Harriman et al.
Electrochemistry Communications, Vol. 2, No. 3, pages 157—162. 2000.
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[20]
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Adaptive Finite Element Simulation of Currents at Microelectrodes to Guaranteed Accuracy: Application to a Simple Model Problem
K. Harriman et al.
Electrochemistry Communications, Vol. 2, No. 3, pages 150—156. 2000.
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[21]
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Adaptive Finite Element Simulation of Currents at Microelectrodes to a Guaranteed Accuracy. Application to Channel Microband Electrodes
K. Harriman et al.
No. NA00/09, Technical Report, Oxford University Computing Laboratory. 2000.
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[22]
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Adaptive Finite Element Simulation of Steady State Currents at Microdisc Electrodes to a Guaranteed Accuracy
K. Harriman et al.
No. NA99/19, Technical Report, Oxford University Computing Laboratory. 1999.
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