C. Behling scite author profile

C. Behling

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5Publications

380Citation Statements Received

108Citation Statements Given

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Affiliations

Otto-von-Guericke University Magdeburg, University Hospital Magdeburg

Publications

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Role of Mass Accumulation and Viscoelastic Film Properties for the Response of Acoustic-Wave-Based Chemical Sensors

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1999

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The sensitivity of acoustic-wave microsensors coated with a viscoelastic film to mass changes and film modulus (changes) is examined. The study analyzes the acoustic load at the interface between the acoustic device and the coating. The acoustic load carries information about surface mass and film modulus; its determination has no restrictions in film thickness. Two regimes of film behavior can be distinguished: the gravimetric regime, where the sensor response is mainly mass sensitive, and the nongravimetric regime, where viscoelasticity gains influence on the sensor response. We develop a method, which allows the assignment of the sensor signal to a gravimetric or a nongravimetric response. The critical value can be determined from oscillator measurements. The related limits for the coating thickness are not the same for the coating procedure and mass accumulation during chemical sensing. As an example, we present results from a 10 MHz quartz crystal resonator.

Determination of complex shear modulus with thickness shear mode resonators

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et al. 1997

J. Phys. D: Appl. Phys.

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The electrical response of polymer-coated acoustic wave sensors depends on changes in the surface mass loading and changes in viscoelastic properties of the coating material. In this paper we consider the acoustic behaviour and the electrical response of a thickness-shear mode resonator on changes in shear parameters of the coating material at its fundamental frequency as well as its third and fifth harmonics. The changes in material properties were induced by temperature changes. Both a glassy and a rubbery polymer were investigated. The complex shear parameter and dynamic glass transition temperature were calculated from impedance measurements.

Gravimetric and non-gravimetric chemical quartz crystal resonators

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2000

Sensors and Actuators B: Chemical

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The non-gravimetric quartz crystal resonator response and its application for determination of polymer shear modulus

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1998

Meas. Sci. Technol.

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An application of quartz crystal resonator measurements for characterization of polymer materials is presented. It exploits the non-gravimetric response of these resonators, namely the dependence of the electrical response of polymer-coated quartz crystal resonators on the polymer's shear modulus. The possibility and an acoustic limit for this method for determination of shear moduli are discussed. It is shown that this application of quartz crystal resonators is in contrast to the well known mass detection according to gravimetric working conditions. An error analysis for the gravimetric frequency interpretation for polymer-coated crystals is presented.

Possibilities and limitations in quantitative determination of polymer shear parameters by TSM resonators

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1997

Sensors and Actuators A: Physical

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