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[1] G. Barillaro, A. Nannini, F. Pieri, APSFET: a new, porous silicon-based

gas sensing device, Sensors and Actuators B, 93, 2003, 263-270.

[2] D. R. Thévenot, K. Toth, R. A. Durst, G. S. Wilson, Electrochemical

biosensors recommended definitions and classification, Biosensors &

Bioelectronics, 16, 2001, 121-131.

[3] M. Schienle, C.Paulus, A. Frey, F. Hofmann, B. Holzapfl, P. Schindler-Bauer, R. Thewes, A fully electronic DNA sensor with 128 positions and

in-pixel A/D conversion, IEEE Journal of Solid State Circuits, Vol. 39, No. 12,

December 2004, 2438-2445.

[4] C. Xu, J. Li, Y. Wang, L. Cheng, Z. Lu, M. Chan, A CMOS-compatible

DNA microarray using optical detection together with a highly sensitive nanometallic particle protocol, IEEE Electron Device Letters, Vol 26, No. 4,

April 2005, 240-242.

[5] J. Schotter, P. B. Kamp, A. Becker, A. Pühler, G. Reiss, H. Brückl,

Comparison of a prototype magentoresistive biosensor to standard fluorescent DNA detection, Biosensors & Bioelectronics, 19, 2004,

1149-1156.

[6] A. Poghossian, A. Chervstvy, S. Ingebrandt, A. Offenhäusser, M. J. Schöning, Possibilities an limitations of label-free detection of DNA

hybridization with field-effect-based devices, Sensors and Actuators B,

111-112, 2005, 470-480.

[7] H. Berney, J. West, E. Haefele, J. Alderman, W. Lane, J. K. Collins, A

DNA diagnostic biosensor: development, characterization and performance, Sensors and Actuators B, 68, 2000, 100-108.

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[8] D. S. Kim, Y. T. Jeong, H. J. Park, J. K. Shin, P. Choi, J. H. Lee, G. Lim, An FET-type charge sensor for highly sensitive detection of DNA

sequence, Biosensors & Bioelectronics, 20, 2004, 69-74.

[9] P. Bergveld, Thirty years of ISFETOLOGY – What happened in the

past 30 years and what may happen in the next 30 years, Sensors and

Actuators B, 88, 2003, 1-20.

[10] S. Morini, L. Landini, R. Rondella, F. Di Francesco, C. Domenica, Tesi di Laurea Sviluppo di un sistema microgravimetrico per la determinazione

dell’espressione genica, Università degli Studi di Pisa, Facoltà

d’Ingegneria, Corso di Laurea in Ingegneria Elettronica, A.A. 2004/2005. [11] A. Nannini, P. Bruschi, Sensori e rivelatori, Terza edizione, Servizio

Editoriale Universitario di Pisa, 16 Marzo 2000.

[12] G. Sauerbrey, The use of quartz oscillators for weighing thin layers and

for microweighing, Z. Phys., 155, 1959, 206-222.

[13] K. K. Kanazawa, J. G. Gordon, Frequency of a quartz crystal

microbalance in contact with liquid, Anal. Chem., 57, 1985, 1770-1771.

[14] K. K. Kanazawa, J. G. Gordon, The oscillation frequency of a quartz

crystal microbalance, Anal. Chem. Acta, 175, 1985, 99-105.

[15] X. Mao, L. Yang, X. L. Su, Y. Li, A nanoparticle amplification based

quartz crystal microbilance DNA sensor for detection of Escherichia coli O157:H7, Biosensori and Bioelectronics, 21, 2006, 1178-1185.

[16] F. Caruso, E. Rodda, D. N. Furlong, Quartz crystal microbilance study

of DNA immobilization an hybridization for nucleic acid sensor development, Anal. Chem., 69, 1997, 2043-2049.

[17] H. Baltes, O. Brand, A. Hierlemann, D. Lange, C. Hagleitner, CMOS

MEMS – present and future, Micro Electro Mechanical Systems, 20-24

Jan. 2002, 459-466.

[18] M. Alvarez, J. Tamayo, Optical sequential readout of microcantilever

arrays for biological detection, Sensors and Actuators B, 106, 2005,

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[19] R. Sunier, Y. Li, K. U. Kirstein, T. Vancura, H. Baltes, O. Brand,

Resonant magnetic field sensor with frequency output, IEEE, 2005,

339-342.

[20] A. V. Grigorov, Z. J. Davis, P. Rasmussen, A. Boisen, A longitudinal

thermalactuation principle for mass detection using a resonant microcantilever in a fluid medium, Microelectronic Engineering, 73-74,

2004, 881-886.

[21] A. V. Grigorov, A. Boisen, Novel resonant cantilever mass change

detection and resonant frequency tuning, Microelectronic Engineering,

78-79, 2005, 190-194.

[22] R. Gabl, H. D. Feucht, H. Zeininger, G. Eckstein, M. Schreiter, R. Primig, D. Pitzer, W. Wersing, First results on label-free detection of DNA

and protein molecules using a novel integrated sensor technology based on gravimetric detection principles, Biosensors and Bioelectronics, 19,

2004, 615-620.

[23] Y. Lee, G. Lim, W. Moon, A self-excited micro cantilever biosensor

actuated by PZt using the mass micro balancing technique, Sensors and

Actuators A, Article in press, 2006.

[24] A. Garnier, T. Bourouina, H. Fujita, T. Hiramoto, E. Orsier, J. C. Peuzin, Magnetic actuation of bending and torsional vibrations for 2D

optical-scanner application, Sensors and Actuators, 84, 2000, 156-160.

[25] M. D. Chabot, J. M. Moreland, L. Gao, S. H. Liou, C. W. Miller, Novel

fabrication of micromechanical oscillators with nanoscale sensitivity at room temperature, Journal of Microelectromechanical Systems, Vol. 14,

No. 5, October 2005.

[26] P. Toscano, A. Nannini, F. Pieri, Tesi di Laurea Specialistica

Progettazione di un sensore per indagini genetiche basato su una struttura microelettromeccanica risonante, Università degli Studi di Pisa, Facoltà

d’Ingegneria, Corso di Laurea Specialistica in Ingegneria Elettronica, A.A. 2004/2005.

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[27] Z. Kadar, A. Bossche, P.M. Sarro, J. R. Mollinger, Magnetic-field

measurements using an integrated resonant magnetic-field sensor,

Sensors and Actuators A, 70, 1998, 225-232.

[28] D. Lange, C. Hagleitner, C. Herzog, O. Brand, h. Baltes,

Electromagnetic actuation and MOS-transistor sensing for CMOS-integrated micromechanical resonators, Sensors and Actuators A, 103,

2003, 150-155.

[29] D. W. Lee, T. Ono, M. Esashi, Cantilever with integrated resonator for

application of scanning probe microscope, Sensors and Actuators, 83,

2000, 11-16.

[30] H. A. C. Tilmans, Equivalent circuit representation of electromechanical

transducers: I. Lumped-parameter systems, J. Mocromech Microeng., 6,

1996, 157-176.

[31] S. Wolf, R. N. Tauber, Silicon processing for the VLSI era, Sunset Beach: Lattice Press, c1986-1990.

[32] E. H. Klaassen, R. J. Reay, G. T. A. Kovacs, Diode-based thermal

r.m.s. converter with on-chip circuitry fabricated using CMOS technology,

Sensors and Actuators A, 52, 1996, 33-40.

[33] E. H. Klaassen, R. J. Reay, C. Storment, G. T. A. Kovacs,

Micromachined thermally isolated circuits, Sensors and Actuators A, 58,

1997, 43-50.

[34] O. Tabata, pH-controlled TMAH etchants for silicon micromachining, Sensors and Actuators A, 53, 1996, 335-339.

[35] G. Yan, P. C. H. Chan, I-M. Hsing, R. K. Sharma, J. K. O. Sin, Y. Wang, An improved TMAH Si-etching solution without attacking exposed

aluminium, Sensors and Actuators A, 89, 2001, 135-141.

[36] K. Biswas, S. Das, D. K. Maurya, S. Kal, S. K. Lahiri, Bulk

micromachining of silicon in TMAH-based etchants for aluminium passivation and smooth surface, Microelectronics Journal, 37, 2006,

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[37] K. Biswas, S. Kal, Etch characteristics of KOH, TMAH and dual doped

TMAH for bulk micromachining of silicon, Microelectronics Journal, 37,

2006, 519-525.

[38] S. Brida, A. Faes, V. Guarnieri, F. Giacomozzi, B. Margesin, M. Paranjape, G. U. Pignatel, M. Zen, Microstructures etched in doped TMAH

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