Use of Neutron Reflectivity to Measure the Dynamics of Solvation and Structural Changes in Polyvinylferrocene Films During Electrochemically Controlled Redox Cycling

Time-resolved specular neutron reflectivity measurements are presented and interpreted for electroactive polyvinylferrocene (PVF) films subject to potentiodynamic electrochemical control. New data acquisition methodology allows an effective measurement time scale on the order of seconds, which is an...

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Veröffentlicht in:	Langmuir 2009-04, Vol.25 (7), p.4093-4103
Hauptverfasser:	Glidle, Andrew, Hillman, A. Robert, Ryder, Karl S, Smith, Emma L, Cooper, Jon, Gadegaard, Nikolaj, Webster, John R. P, Dalgliesh, Robert, Cubitt, Robert
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Sprache:	eng
Schlagworte:	Chemistry Colloidal state and disperse state Electrochemistry Exact sciences and technology General and physical chemistry Interfaces: Adsorption, Reactions, Films, Forces Surface physical chemistry
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creator	Glidle, Andrew Hillman, A. Robert Ryder, Karl S Smith, Emma L Cooper, Jon Gadegaard, Nikolaj Webster, John R. P Dalgliesh, Robert Cubitt, Robert
description	Time-resolved specular neutron reflectivity measurements are presented and interpreted for electroactive polyvinylferrocene (PVF) films subject to potentiodynamic electrochemical control. New data acquisition methodology allows an effective measurement time scale on the order of seconds, which is an improvement over conventional methodology by 2 to 3 orders of magnitude. Reflectivity profiles were obtained for PVF films exposed to aqueous 0.1 M NaClO4 in which PVF films are thermodynamically permselective, with contrast variation via H2O and D2O. Irrespective of any model, the raw profiles show chemically reversible film “breathing” due to redox-driven solvent entry and exit during polymer oxidation and reduction, respectively. Modeling reveals three compositionally distinct regions within the polymer film: interfacial regions at the electrode and solution interfaces and a “bulk” interior. The new methodology, supported by simultaneous in situ visible transmission spectroscopy, reveals an unprecedented level of insight into the temporal and spatial mechanistic details of film solvation changes, including a two-stage (de)solvation mechanism for redox switching, differences in interior (in)homogeneity for reduced and oxidized films, and permselectivity failure under dynamic electrochemical conditions for the reduced (but not oxidized) state, in contrast to static conditions that allow permselectivity for both states.
doi_str_mv	10.1021/la803234e
format	Article
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Irrespective of any model, the raw profiles show chemically reversible film “breathing” due to redox-driven solvent entry and exit during polymer oxidation and reduction, respectively. Modeling reveals three compositionally distinct regions within the polymer film: interfacial regions at the electrode and solution interfaces and a “bulk” interior. 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Reflectivity profiles were obtained for PVF films exposed to aqueous 0.1 M NaClO4 in which PVF films are thermodynamically permselective, with contrast variation via H2O and D2O. Irrespective of any model, the raw profiles show chemically reversible film “breathing” due to redox-driven solvent entry and exit during polymer oxidation and reduction, respectively. Modeling reveals three compositionally distinct regions within the polymer film: interfacial regions at the electrode and solution interfaces and a “bulk” interior. 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title	Use of Neutron Reflectivity to Measure the Dynamics of Solvation and Structural Changes in Polyvinylferrocene Films During Electrochemically Controlled Redox Cycling
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