A. Arnau, A review of interface electronic systems for AT-cut quartz crystal microbalance applications in liquids, Sensors, vol.8, pp.370-411, 2008.

B. Becker and M. A. Cooper, A survey of the 2006-2009 quartz crystal microbalance biosensor literature, Journal of Molecular Recognition, vol.24, pp.754-787, 2011.

S. Butterworth, On electrically-maintained vibrations, Proceedings of the Physical Society of London, vol.27, p.410, 1914.

R. H. Byrd, J. C. Gilbert, and J. Nocedal, A trust region method based on interior point techniques for nonlinear programming, Mathematical Programming, vol.89, pp.149-185, 2000.
URL : https://hal.archives-ouvertes.fr/inria-00073794

J. Cheeke and Z. Wang, Acoustic wave gas sensors, Sensors and Actuators B, vol.59, pp.146-153, 1999.

L. M. Dossin and . Graessley, Rubber elasticity of well-characterized polybutadiene networks, Macromolecules, vol.12, pp.123-130, 1979.

W. Hinsberg, C. Willson, and K. K. Kanazawa, Measurement of ThinFilm Dissolution Kinetics Using a Quartz Crystal Microbalance, Journal of The Electrochemical Society, vol.133, pp.1448-1451, 1986.

R. C. Holt, G. J. Gouws, and J. Z. Zhen, Measurement of polymer shear modulus using thickness shear acoustic waves, Current Applied Physics, vol.6, pp.334-339, 2006.

D. Johannsmann, The Quartz Crystal Microbalance in Soft Matter Research: Fundamentals and Modeling. Soft and Biological Matter, 2015.

K. K. Kanazawa and J. G. Gordon, The oscillation frequency of a quartz resonator in contact with liquid, Analytica Chimica Acta, vol.175, pp.99-105, 1985.

N. R. Langley, Elastically effective strand density in polymer networks, Macromolecules, vol.1, pp.348-352, 1959.

R. Lucklum, C. Behling, and P. Hauptmann, Gravimetric and nongravimetric chemical quartz crystal resonators, Sensors and Actuators B, vol.65, pp.227-283, 2000.

W. P. Mason and H. Baerwald, Piezoelectric crystals and their applications to ultrasonics, Physics Today, vol.4, p.23, 1951.

T. Rey, G. Chagnon, J. Le-cam, and D. Favier, Influence of the temperature on the mechanical behaviour of filled and unfilled silicone rubbers, Polymer Testing, vol.32, pp.492-501, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01073891

G. Sauerbrey, Verwendung von schwingquarzen zur wägung dünner schichten und zur mikrowägung, Zeitschrift fur Physik, vol.155, pp.206-222, 1959.

S. Serfaty, P. Griesmar, J. Le-huu, C. , and E. , Piezoelectric sensor for the detection and characterization of at least one biochemical element, 2012.

P. Si, J. Mortensen, A. Komolov, J. Denborg, and P. J. Møller, Polymer coated quartz crystal microbalance sensors for detection of volatile organic compounds in gas mixtures, Analytica chimica acta, vol.597, pp.223-230, 2007.

C. Stockbridge, Effects of gas pressure on quartz crystal microbalances, Vacuum Microbalance Techniques, vol.5, pp.147-178, 1966.

C. Stockbridge, Resonance frequency versus mass added to quartz crystals, Vacuum Microbalance Techniques, vol.5, p.193, 1966.

K. Van-dyke, The piezo-electric resonator and its equivalent network, Proceedings of the Institute of Radio Engineers, vol.16, pp.742-764, 1928.

H. Wang, Y. Zhang, B. Yan, L. Liu, S. Wang et al., , 2006.

, Rapid, simple, and sensitive immunoagglutination assay with SiO2 particles and quartz crystal microbalance for quantifying Schistosoma japonicum antibodies, Clinical chemistry, vol.52, pp.2065-2071

J. Yu, H. Liao, A. E. Gerdon, B. Huffman, R. M. Scearce et al., Detection of Ebola virus envelope using monoclonal and polyclonal antibodies in ELISA, surface plasmon resonance and a quartz crystal microbalance immunosensor, Journal of virological methods, vol.137, pp.219-228, 2006.

, !" (b) loss factor tan(?)

, Evolution of the viscoelastic properties at different ambient temperatures, respectively 25 ? C (in blue color), 50 ? C (in red color) and 80 ? C