Search results for "Sauerbrey equation"

showing 3 items of 3 documents

Oscillatory Changes of the Heterogeneous Reactive Layer Detected with the Motional Resistance during the Galvanostatic Deposition of Copper in Sulfur…

2015

Metallic copper was galvanostatically deposited on quartz|gold resonant electrodes by applying a constant current in a 0.5 M CuSO4/0.1 M H2SO4 aqueous solution. Galvanostatic copper deposition is one of the best methodologies to calibrate the electrochemical quartz crystal microbalances (EQCM), a gravimetric sensor to evaluate changes in mass during the electrochemical reactions through the Sauerbrey equation. The simultaneous measurement of mass, current density, and motional resistance by an EQCM with motional resistance monitoring allows us to characterize the processes occurring on the electrode surface and at the interfacial regions with unprecedented detail. During the galvanostatic c…

Auxiliary electrodeWorking electrodeInorganic chemistryAnalytical chemistrychemistry.chemical_elementElectrochemistryMotionSauerbrey equationElectrochemistryDeposition (phase transition)General Materials ScienceElectrodesSpectroscopyElectric ConductivitySurfaces and InterfacesHydrogen PeroxideSulfuric AcidsCondensed Matter PhysicsCopperOxygenSolutionschemistryElectrodeCalibrationQuartz Crystal Microbalance TechniquesLayer (electronics)CopperLangmuir : the ACS journal of surfaces and colloids
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EQCM and Quartz Crystal Impedance Measurements for the Characterization of Thiophene-Based Conducting Polymers

1999

AbstractEQCM was extensively used to investigate ion-transport phenomena during dopingundoping processes of electronically conducting polymers. Several early studies assumed that the polymer films were rigidly coupled to the quartz crystal so as to relate the mass change to the quartz crystal resonant frequency change via the Sauerbrey equation. However, the rigidity of electronically conducting polymer films is doubtful and it has to be demonstrated. Quartz crystal impedance analysis near the resonance is of paramount importance to get insight into the viscoelastic properties of the film [1] and to avoid misleading in the interpretation of EQCM data.This contribution presents and discusses…

Conductive polymerCrystalchemistry.chemical_classificationMaterials sciencechemistrySauerbrey equationResonancePolymerComposite materialQuartzElectrical impedanceViscoelasticityMRS Proceedings
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Validation of the mass response of a quartz crystal microbalance coated with Prussian Blue film for ac electrogravimetry

2000

Prussian Blue (PB) films have been considerably studied for many research applications such as electrochromic material development, new material for batteries, etc. Many analytical techniques were employed for examining PB electrochemical behaviour in solution and the quartz crystal microbalance (QCM) used in the alternative regime (ac electrogravimetry) appeared as an attractive in situ mass sensor due to its low cost and its high mass sensitivity. Unfortunately, the validity of the common Sauerbrey equation was questionable with these films or in other terms if the QCM was used as a pure mass sensor. In this work PB film is examined through acoustic measurements and the response can be in…

Prussian blueChemistryAnalytical chemistryQuartz crystal microbalanceElectrochemistryViscoelasticitylcsh:Chemistrychemistry.chemical_compoundlcsh:Industrial electrochemistrylcsh:QD1-999ElectrochromismElectrogravimetrySauerbrey equationElectrochemistryHigh masslcsh:TP250-261Electrochemistry Communications
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