A large class of chemical and biological sensors have been based on electrical characterization of interfaces where sensing is often related to the characterization of interfaces between ion-based and electron-based conductive mate- rials by means of typical electric variables such as voltage, current and charge. Integrated electronics has started a revolution in this field allowing very complex electronic systems to be shrunk to millimeter square sizes. This paper will introduce some recent trends in integrated sensor interface design, showing how progress in electronic devices and signal processing would enhance performance and applications of biochemical sensors.
M. Crescentini, M. Bennati, M. Tartagni (2012). Recent Trends for (Bio)Chemical Impedance Sensor Electronic Interfaces. ELECTROANALYSIS, 24, 563-572 [10.1002/elan.201100547].
Recent Trends for (Bio)Chemical Impedance Sensor Electronic Interfaces
CRESCENTINI, MARCO;BENNATI, MARCO;TARTAGNI, MARCO
2012
Abstract
A large class of chemical and biological sensors have been based on electrical characterization of interfaces where sensing is often related to the characterization of interfaces between ion-based and electron-based conductive mate- rials by means of typical electric variables such as voltage, current and charge. Integrated electronics has started a revolution in this field allowing very complex electronic systems to be shrunk to millimeter square sizes. This paper will introduce some recent trends in integrated sensor interface design, showing how progress in electronic devices and signal processing would enhance performance and applications of biochemical sensors.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
