In this paper we present a chemiluminescence-based micro-total-analysis system integrating amorphous silicon for on-chip detection as a technically feasible solution to develop "true" lab-on-chip systems, intended as stand-alone devices implementing all the analytical steps from sample preparation to on-chip detection. The achieved performances are comparable to that of the state-of-the-art lab equipment demonstrating that such systems would enable the development of a variety of point-of-care testing systems, opening new analytical application scenarios.
In this paper we present a chemiluminescence-based micro-total-analysis system integrating amorphous silicon for on-chip detection as a technically feasible solution to develop "true" lab-on-chip systems, intended as stand-alone devices implementing all the analytical steps from sample preparation to on-chip detection. The achieved performances are comparable to that of the state-of-the-art lab equipment demonstrating that such systems would enable the development of a variety of point-of-care testing systems, opening new analytical application scenarios. © 2014 Springer International Publishing Switzerland.
Chemiluminescence-based micro-total-analysis system with amorphous silicon photodiodes / Caputo, Domenico; DE CESARE, Giampiero; Scipinotti, Riccardo; M., Mirasoli; A., Roda; M., Zangheri; Nascetti, Augusto. - 268 LNEE:(2014), pp. 207-211. (Intervento presentato al convegno 17th National Conference on Sensors and Microsystems tenutosi a Brescia nel 5 February 2013 through 7 February 2013) [10.1007/978-3-319-00684-0-39].
Chemiluminescence-based micro-total-analysis system with amorphous silicon photodiodes
CAPUTO, Domenico;DE CESARE, Giampiero;SCIPINOTTI, RICCARDO;NASCETTI, Augusto
2014
Abstract
In this paper we present a chemiluminescence-based micro-total-analysis system integrating amorphous silicon for on-chip detection as a technically feasible solution to develop "true" lab-on-chip systems, intended as stand-alone devices implementing all the analytical steps from sample preparation to on-chip detection. The achieved performances are comparable to that of the state-of-the-art lab equipment demonstrating that such systems would enable the development of a variety of point-of-care testing systems, opening new analytical application scenarios.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.