Journal ArticleDOI
Simultaneous frequency and dissipation factor QCM measurements of biomolecular adsorption and cell adhesion
Michael Rodahl,Fredrik Höök,Claes Fredriksson,Craig A. Keller,Anatol Krozer,Peter Brzezinski,M. V. Voinova,Bengt Herbert Kasemo +7 more
TLDR
It is shown theoretically that viscoelastic layers with thicknesses comparable to the biofilms studied in this work can induce energy dissipation of the same magnitude as the measured ones.Abstract:
We have measured the energy dissipation of the quartz crystal microbalance(QCM), operating in the liquid phase, when mono- or multi-layers of bio-molecules and biofilms form on the QCM electrode (with a time resolution of ca. 1 s). Examples are taken from protein adsorption, lipid vesicle adsorption and cell adhesion studies. Our results show that even very thin (a few nm) biofilms dissipate a significant amount of energy owing to the QCM oscillation. Various mechanisms for this energy dissipation are discussed. Three main contributions to the measured increase in energy dissipation are considered. (i) A viscoelastic porous structure (the biofilm) that is strained during oscillation, (ii) trapped liquid that moves between or in and out of the pores due to the deformation of the film and (iii) the load from the bulk liquid which increases the strain of the film. These mechanisms are, in reality, not entirely separable, rather, they constitute an effective viscoelastic load. The biofilms can therefore not be considered rigidly coupled to the QCM oscillation. It is further shown theoretically that viscoelastic layers with thicknesses comparable to the biofilms studied in this work can induce energy dissipation of the same magnitude as the measured ones.read more
Citations
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Journal ArticleDOI
Viscoelastic Acoustic Response of Layered Polymer Films at Fluid-Solid Interfaces: Continuum Mechanics Approach
TL;DR: In this article, the authors derived the general solution of a wave equation describing the dynamics of two-layer viscoelastic polymer materials of arbitrary thickness deposited on solid (quartz) surfaces in a fluid environment.
Journal ArticleDOI
Variations in Coupled Water, Viscoelastic Properties, and Film Thickness of a Mefp-1 Protein Film during Adsorption and Cross-Linking: A Quartz Crystal Microbalance with Dissipation Monitoring, Ellipsometry, and Surface Plasmon Resonance Study
TL;DR: It is shown how quantitative data about the thickness, shear elastic modulus, and shear viscosity of the protein film can be obtained with the QCM-D technique, even beyond the Sauerbrey regime, if frequency (f) and energy dissipation (D) measurements measured at multiple harmonics are combined with theoretical simulations using a Voight-based viscoelastic model.
Journal ArticleDOI
Hearing what you cannot see and visualizing what you hear: interpreting quartz crystal microbalance data from solvated interfaces.
TL;DR: QCM users are offered a set of guidelines for interpretation and quantitative analysis of QCM data based on a synthesis of well-established concepts rooted in rheological research of the last century and of new results obtained in the last several years.
Journal ArticleDOI
Quartz crystal microbalance with dissipation monitoring of supported lipid bilayers on various substrates
TL;DR: A protocol for constructing zwitterionic SLBs supported on silicon oxide and titanium oxide, and a recently developed strategy that uses an amphipathic, α-helical (AH) peptide to form SLBs on gold and Titanium oxide substrates are presented.
Journal ArticleDOI
Label-free screening of bio-molecular interactions
TL;DR: In this paper, the authors focus on three major label-free screening platforms: surface plasmon resonance (SPR), acoustic and calorimetric (CBE) biosensors.
References
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Quartz crystal microbalance setup for frequency and Q‐factor measurements in gaseous and liquid environments
TL;DR: In this paper, an experimental setup has been constructed for simultaneous measurements of the frequency, the absolute Q factor, and the amplitude of oscillation of a quartz crystal microbalance (QCM).
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TL;DR: In this paper, an experimental setup has been constructed for simultaneous measurements of the frequency, the absolute Q factor, and the amplitude of oscillation of a quartz crystal microbalance (QCM).
Journal ArticleDOI
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