Microelectronic technology provides a powerful framework for the implementation of devices that can manipulate living microorganisms. This paper reviews the impact that the current scaling trend in feature size of CMOS technology will have on a few basic operations, such as cell manipulation and sensing.
Teaching cells to dance: the impact of transistor miniaturization on the manipulation of populations of living cells / M. Abonnenc; L. Altomare; M. Baruffa; V. Ferrarini; R. Guerrieri; B. Iafelice; A. Leonardi; N. Manaresi; G. Medoro; A. Romani; M. Tartagni; P. Vulto. - STAMPA. - (2004), pp. 123-128. (Intervento presentato al convegno International Workshop on Ultimate Integration of Silicon (ULIS) tenutosi a Leuven nel 2004).
Teaching cells to dance: the impact of transistor miniaturization on the manipulation of populations of living cells
ALTOMARE, LUIGI;GUERRIERI, ROBERTO;MANARESI, NICOLO';MEDORO, GIANNI;ROMANI, ALDO;TARTAGNI, MARCO;
2004
Abstract
Microelectronic technology provides a powerful framework for the implementation of devices that can manipulate living microorganisms. This paper reviews the impact that the current scaling trend in feature size of CMOS technology will have on a few basic operations, such as cell manipulation and sensing.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.