Gravimetric and viscoelastic changes during the oxidation-reduction of layer-by-layer self assembled enzyme multilayers wired by an Os-containing poly(allylamine) polymer

The ellipsometric and mass increase during the oxidation-reduction cycles of self-assembled layer-by-layer osmium complex derivatized poly(allylamine) and glucose oxidase multilayers due to the exchange of anions and solvent with the electrolyte and viscoelastic changes of the surface layer have bee...

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Autores principales: Calvo, E.J., Forzani, E., Otero, M.
Formato: JOUR
Materias:
Enzyme
EQCM
Glucose oxidase
Layer-by-layer
Self-assembled
Viscoelastic
Acoustic impedance
Cyclic voltammetry
Elastic moduli
Electrolytes
Enzymes
Glucose
Gravimetric analysis
Ion exchange
Multilayers
Organic polymers
Osmium compounds
Quartz
Redox reactions
Resonators
Self assembly
Viscoelasticity
Electrochemical quartz crystal microbalance (EQCM)
Electrochemistry
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00220728_v538-539_n_p231_Calvo
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_00220728_v538-539_n_p231_Calvo2023-10-03T14:25:50Z Gravimetric and viscoelastic changes during the oxidation-reduction of layer-by-layer self assembled enzyme multilayers wired by an Os-containing poly(allylamine) polymer Calvo, E.J. Forzani, E. Otero, M. Enzyme EQCM Glucose oxidase Layer-by-layer Self-assembled Viscoelastic Acoustic impedance Cyclic voltammetry Elastic moduli Electrolytes Enzymes Glucose Gravimetric analysis Ion exchange Multilayers Organic polymers Osmium compounds Quartz Redox reactions Resonators Self assembly Viscoelasticity Electrochemical quartz crystal microbalance (EQCM) Electrochemistry The ellipsometric and mass increase during the oxidation-reduction cycles of self-assembled layer-by-layer osmium complex derivatized poly(allylamine) and glucose oxidase multilayers due to the exchange of anions and solvent with the electrolyte and viscoelastic changes of the surface layer have been studied using the electrochemical quartz crystal microbalance (EQCM) technique. From the measurement of the quartz crystal impedance spectrum of films deposited on a thiolate Au-quartz crystal immersed in viscous aqueous electrolyte, simultaneously with cyclic voltammetry and potential steps, the real (RS) and imaginary components (XLS=ωLS) of the quartz complex impedance load have been derived. It has been shown that the quartz crystal impedance of the composite resonator (film and liquid) increases with the number of deposited layers due to increase of both the film thickness and the shear modulus. The reduced polymer multilayers, with ellipsometric thickness ranging from 200 to 600 nm behave as acoustically thin films, while in the oxidized Os(III) films viscoelastic characteristics are apparent at 10 MHz. Using a viscoelastic model for the enzyme/polymer film we conclude that the film acoustic impedance increases with the number of self-assembled layers due to the thickness increase, and also to the increase of the shear modulus due to oxidation. The values of the shear modulus and loss tangent were estimated from the acoustic impedance, the film density and the ellipsometric thickness; the latter follows a linear dependence with the degree of oxidation. The increase of loss modulus, and hence loss tangent, is more pronounced, the larger the degree of polymer oxidation. © 2002 Elsevier Science B.V. All rights reserved. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00220728_v538-539_n_p231_Calvo
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Enzyme
EQCM
Glucose oxidase
Layer-by-layer
Self-assembled
Viscoelastic
Acoustic impedance
Cyclic voltammetry
Elastic moduli
Electrolytes
Enzymes
Glucose
Gravimetric analysis
Ion exchange
Multilayers
Organic polymers
Osmium compounds
Quartz
Redox reactions
Resonators
Self assembly
Viscoelasticity
Electrochemical quartz crystal microbalance (EQCM)
Electrochemistry
spellingShingle Enzyme
EQCM
Glucose oxidase
Layer-by-layer
Self-assembled
Viscoelastic
Acoustic impedance
Cyclic voltammetry
Elastic moduli
Electrolytes
Enzymes
Glucose
Gravimetric analysis
Ion exchange
Multilayers
Organic polymers
Osmium compounds
Quartz
Redox reactions
Resonators
Self assembly
Viscoelasticity
Electrochemical quartz crystal microbalance (EQCM)
Electrochemistry
Calvo, E.J.
Forzani, E.
Otero, M.
Gravimetric and viscoelastic changes during the oxidation-reduction of layer-by-layer self assembled enzyme multilayers wired by an Os-containing poly(allylamine) polymer
topic_facet Enzyme
EQCM
Glucose oxidase
Layer-by-layer
Self-assembled
Viscoelastic
Acoustic impedance
Cyclic voltammetry
Elastic moduli
Electrolytes
Enzymes
Glucose
Gravimetric analysis
Ion exchange
Multilayers
Organic polymers
Osmium compounds
Quartz
Redox reactions
Resonators
Self assembly
Viscoelasticity
Electrochemical quartz crystal microbalance (EQCM)
Electrochemistry
description The ellipsometric and mass increase during the oxidation-reduction cycles of self-assembled layer-by-layer osmium complex derivatized poly(allylamine) and glucose oxidase multilayers due to the exchange of anions and solvent with the electrolyte and viscoelastic changes of the surface layer have been studied using the electrochemical quartz crystal microbalance (EQCM) technique. From the measurement of the quartz crystal impedance spectrum of films deposited on a thiolate Au-quartz crystal immersed in viscous aqueous electrolyte, simultaneously with cyclic voltammetry and potential steps, the real (RS) and imaginary components (XLS=ωLS) of the quartz complex impedance load have been derived. It has been shown that the quartz crystal impedance of the composite resonator (film and liquid) increases with the number of deposited layers due to increase of both the film thickness and the shear modulus. The reduced polymer multilayers, with ellipsometric thickness ranging from 200 to 600 nm behave as acoustically thin films, while in the oxidized Os(III) films viscoelastic characteristics are apparent at 10 MHz. Using a viscoelastic model for the enzyme/polymer film we conclude that the film acoustic impedance increases with the number of self-assembled layers due to the thickness increase, and also to the increase of the shear modulus due to oxidation. The values of the shear modulus and loss tangent were estimated from the acoustic impedance, the film density and the ellipsometric thickness; the latter follows a linear dependence with the degree of oxidation. The increase of loss modulus, and hence loss tangent, is more pronounced, the larger the degree of polymer oxidation. © 2002 Elsevier Science B.V. All rights reserved.
format JOUR
author Calvo, E.J.
Forzani, E.
Otero, M.
author_facet Calvo, E.J.
Forzani, E.
Otero, M.
author_sort Calvo, E.J.
title Gravimetric and viscoelastic changes during the oxidation-reduction of layer-by-layer self assembled enzyme multilayers wired by an Os-containing poly(allylamine) polymer
title_short Gravimetric and viscoelastic changes during the oxidation-reduction of layer-by-layer self assembled enzyme multilayers wired by an Os-containing poly(allylamine) polymer
title_full Gravimetric and viscoelastic changes during the oxidation-reduction of layer-by-layer self assembled enzyme multilayers wired by an Os-containing poly(allylamine) polymer
title_fullStr Gravimetric and viscoelastic changes during the oxidation-reduction of layer-by-layer self assembled enzyme multilayers wired by an Os-containing poly(allylamine) polymer
title_full_unstemmed Gravimetric and viscoelastic changes during the oxidation-reduction of layer-by-layer self assembled enzyme multilayers wired by an Os-containing poly(allylamine) polymer
title_sort gravimetric and viscoelastic changes during the oxidation-reduction of layer-by-layer self assembled enzyme multilayers wired by an os-containing poly(allylamine) polymer
url http://hdl.handle.net/20.500.12110/paper_00220728_v538-539_n_p231_Calvo
work_keys_str_mv AT calvoej gravimetricandviscoelasticchangesduringtheoxidationreductionoflayerbylayerselfassembledenzymemultilayerswiredbyanoscontainingpolyallylaminepolymer
AT forzanie gravimetricandviscoelasticchangesduringtheoxidationreductionoflayerbylayerselfassembledenzymemultilayerswiredbyanoscontainingpolyallylaminepolymer
AT oterom gravimetricandviscoelasticchangesduringtheoxidationreductionoflayerbylayerselfassembledenzymemultilayerswiredbyanoscontainingpolyallylaminepolymer
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