M
M. V. Voinova
Researcher at Chalmers University of Technology
Publications - 37
Citations - 3432
M. V. Voinova is an academic researcher from Chalmers University of Technology. The author has contributed to research in topics: Quartz crystal microbalance & Viscoelasticity. The author has an hindex of 14, co-authored 37 publications receiving 3231 citations. Previous affiliations of M. V. Voinova include University of Gothenburg & National Technical University.
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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.
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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
TL;DR: 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.
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Missing mass effect in biosensor's QCM applications.
TL;DR: A new physical effect 'missing mass' of the sample in liquid phase measurements is predicted and a fundamental result of the theory is the analog of Sauerbrey relation for layered viscous/viscoelastic medium which can be exploited for the correct physical interpretation of QCM experimental data in biofluids.
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Shuttle Mechanism for Charge Transfer in Coulomb Blockade Nanostructures
L. Y. Gorelik,Andreas Isacsson,M. V. Voinova,Bengt Herbert Kasemo,Robert I. Shekhter,Mats Jonson +5 more
TL;DR: In this article, it was shown that self-excitation of periodic cluster oscillations in conjunction with sequential processes of cluster charging and decharging appears for a sufficiently large bias voltage.
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Biomimetic nanoscale reactors and networks.
Mattias Karlsson,Max Davidson,Roger Karlsson,Anders Karlsson,Johan Bergenholtz,Zoran Konkoli,Aldo Jesorka,Tatsiana Lobovkina,Johan Hurtig,M. V. Voinova,Owe Orwar +10 more
TL;DR: Novel micromanipulation methods for producing fluid-state lipid bilayer networks of nanotubes and surface-immobilized vesicles with controlled geometry, topology, membrane composition, and interior contents are described.