Modified piezoelectric surfaces

Perrot, H.; Calvo, E.; Brett, C.

doi:10.1007/978-3-540-77508-9_11

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Perrot, H.; Calvo, E.; Brett, C. "Modified piezoelectric surfaces" (2008) Piezoelectric Transducers and Applications:271-287

https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97835407_v_n_p271_Perrot

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Abstract:

The quartz crystal microbalance (QCM) is an attractive tool for gravimetric measurements and applications can be found in many research fields such as acoustic sensors (Chap. 2), chemical sensors (Chap. 9) and biosensors (Chaps. 10, 12). In general, QCM are covered with noble metals such as gold or silver, usually by evaporation or sputtering, and which can be used directly as electrodes or undergo further surface modification. Using such strategies, the study of processes ranging from electroplating to DNA immobilisation becomes possible. In this chapter, two separate sequential preparation steps should be distinguished. Metallic deposition (acting as the ultrasonic wave generator) is the first step as a support for modification. In the second step, organic or biochemical modifications are carried out before testing the modified QCM. © Springer-Verlag Berlin Heidelberg 2008.

Registro:

Documento:	Parte de libro
Título:	Modified piezoelectric surfaces
Autor:	Perrot, H.; Calvo, E.; Brett, C.
Filiación:	Laboratoire Interface et Systèmes Electrochimiques, Université P. et M. Curie, UPR 15 du CNRS, France Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires, Argentina Departamento de Química, Universidade de Coimbra, Coimbra, Portugal
Año:	2008
Página de inicio:	271
Página de fin:	287
DOI:	http://dx.doi.org/10.1007/978-3-540-77508-9_11
Título revista:	Piezoelectric Transducers and Applications
Título revista abreviado:	Piezoelectric Transducers and Applic.
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97835407_v_n_p271_Perrot

Referencias:

Swann, S., Magnetron sputtering (1988) Physics in technology, 19, pp. 67-75
Gabrielli, C., Keddam, M., Torresi, R., Calibration of the electrochemical quartz crystal microbalance (1991) J. Electrochem. Soc, 138, pp. 2657-2660
Scharifker, B.R., Garcia-Pastoriza, E., Marino, W., The growth of polypyrrole films on electrodes (1991) J. Electroanal. Chem., 300, pp. 85-98
Etchenique, R.A., Calvo, E.J., Gravimetric measurement in redox polymer polymer electrodes with the eqcm beyond the sauerbrey limit (1999) Electrochem. Commun., 1 (5), pp. 167-170
Garcia-Jareno, J.J., Gabrielli, C., Perrot, H., Validation of the mass response of a quartz crystal microbalance coated with prussian blue film for ac electrogravimetry (2000) Electrochem. Commun., 2 (3), pp. 195-200
Nuzzo, R.G., Dubois, L.H., Allara, D.L., Fundamental studies of microscopic wetting on organic surfaces. 1. Formation and structural characterization of a self-consistent series of polyfunctional organic monolayers (1990) J. Am. Chem. Soc., 112 (2), pp. 558-569
Ferrante, F.F., Kippling, A.L., Thompson, M., Molecular slip at the solid-liquid interface of an acoustic-wave sensor (1994) J. Appl. Phys., 76 (6), pp. 3448-3462
Brett, C.M.A., Kresak, S., Hianik, T., Oliveira Brett, A.M., Studies on self-Assembled alkanethiol monolayers formed at applied potential on polycrystalline gold electrodes (2003) Electroanalysis, 15 (6-7), pp. 557-565
Fung, Y.S., Wong, Y.Y., Self-Assembled monolayers as the coating in a quartz piezoelectric crystal immunosensor to detect salmonella in aqueous solution (2001) Anal. Chem., 73 (21), pp. 5302-5309
Barraud, A., Langmuir-blodgett supermolecular assemblies (1987) British Polymer Journal, 19 (3-4), pp. 409-412
Shiratori, S.S., Kohno, K., Yamada, M., High performance smell sensor using spatially controlled lb films with polymer backbone (2000) Sensors and Actuators B, 64, pp. 70-75
Calvo, E.J., Wolosiuk, A., Donnan permselectivity in layer-by-layer self-Assembled redox polyelectrolye thin films (2002) J. Am. Chem. Soc., 124, pp. 8490-8497
Calvo, E.J., Forzani, E.S., Otero, M., Study of layer-by-layer selfassembled viscoelastic films on thickness-shear mode resonator surfaces (2002) Anal. Chem., 74 (14), pp. 3281-3289
Guilbault, G.G., Hock, B., Schmid, R., A piezoelectric immunobiosensor for atrazine in drinking water (1992) Biosens. Bioelectron., 7, pp. 411-419
Bizet, K., Gabrielli, C., Perrot, H., Immunodetection by quartz crystal microbalance. A new approach for direct detection of rabbit igg and peroxidase (2000) Appl. Biochem. Biotechnol, 89, pp. 139-149
Cosnier, S., Perrot, H., Wessel, R., Biotinylated polypyrrole modified quartz crystal microbalance for the fast and reagentless determination of avidin concentration (2001) Electroanalysis, 13, pp. 971-974
Okahata, Y., Matsunobu, Y., Ijiro, K., Mukae, M., Akira, M., Makion, M., Hybridization of nucleic acids immobilized on a quartz crystal microbalance (1992) J. Am. Chem. Soc., 114 (21), pp. 8299-8300
Dupont-Filliard, A., Roget, A., Livache, T., Billon, M., Reversible oligonucleotide immobilisation based on biotinylated polypyrrole film (2001) Anal. Chim. Acta, 449, pp. 45-50
Willner, I., Patolsky, F., Weizmann, Y., Willner, B., Amplified detection of single-base mismatches in dna using microgravimetric quartz-crystal-microbalance transduction (2002) Talanta, 56, pp. 847-856
Zhou, X.C., Huang, L.Q., Li, S.F.Y., Microgravimetric dna sensor based on quartz crystal microbalance: Comparison of oligonucleotide immobilisation methods and the application in genetic diagnosis (2001) Biosens. Bioelectron, 16, pp. 85-95
Tombelli, S., Mascini, M., Turner, A.P.F., Improved procedures for immobilisation of oligonucleotides on goldcoated piezoelectric quartz crystals (2002) Biosens. Bioelectron., 17, pp. 929-936
Caruso, F., Rodda, E., Furlong, D.N., Quartz crystal microbalance study of dna immobilizaton and hybridization for nucleic acid sensor development (1997) Anal. Chem., 69 (11), pp. 2043-2049
Mannelli, I., Minunni, M., Tombelli, S., Mascini, M., Quartz crystal microbalance (qcm) affinity biosensor for genetically modified organisms (gmos) detection (2003) Biosens. And Bioelectron., 18, pp. 129-140
Lazerges, M., Perrot, H., Antoine, E., Defontaine, A., Compere, C., Oligonucleotide quartz crystal microbalance sensor for the microalgae alexandrium minutum (dinophyceae) (2006) Biosens. Bioelectron., 21 (7), pp. 1355-1358
Lazerges, M., Perrot, H., Zeghib, N., Antoine, E., Compere, C., In situ qcm dna-biosensor probe modification (2006) Sensors and Actuators B, 120, pp. 329-337
Lazerges, M., Perrot, H., Rabehagasoa, N., Antoine, E., Compere, C., 45-And 70-Base DNA supramolecular polymerizations on quartz crystal microbalance biosensor (2005) Chem. Commun., 48, pp. 6020-6022

Citas:

---------- APA ----------

Perrot, H., Calvo, E. & Brett, C. (2008) . Modified piezoelectric surfaces. Piezoelectric Transducers and Applications, 271-287.
http://dx.doi.org/10.1007/978-3-540-77508-9_11

---------- CHICAGO ----------

Perrot, H., Calvo, E., Brett, C. "Modified piezoelectric surfaces" . Piezoelectric Transducers and Applications (2008) : 271-287.
http://dx.doi.org/10.1007/978-3-540-77508-9_11

---------- MLA ----------

Perrot, H., Calvo, E., Brett, C. "Modified piezoelectric surfaces" . Piezoelectric Transducers and Applications, 2008, pp. 271-287.
http://dx.doi.org/10.1007/978-3-540-77508-9_11

---------- VANCOUVER ----------

Perrot, H., Calvo, E., Brett, C. Modified piezoelectric surfaces. Piezoelectric Transducers and Applic. 2008:271-287.
http://dx.doi.org/10.1007/978-3-540-77508-9_11