Title :
Hybrid system for complex AC sensing of nanowires
Author :
Rossi, Mattia ; Bennati, M. ; Lombardini, Marta ; Ashburn, Peter ; Morgan, Hywel ; Sangiorgi, Enrico ; Tartagni, Marco
Author_Institution :
Dept. of Electr., Electron. & Inf. Eng., Univ. of Bologna, Cesena, Italy
Abstract :
A compact and low cost hybrid system enabling AC real-time measurements, as well as impedance characterization of bio-nanosensors is presented. The instrument has been tailored for nanowire-based sensors and sensing is measured with performing amperometric techniques with lock-in to measure the complex impedance detection. In addition to the magnitude of the impedance, the system also measures the phase of which provides additional information on the surface-electrolyte interface. The system is user-friendly with a custom software interface so that it can be adapted for different bio-nanosensors and experimental systems. The system was tested by performing real time detection of pH changes and measuring surface chemical modification of of top-down fabricated nanowires. The measurements demonstrate that the phase data provides additional information to the standard measure of conductance.
Keywords :
amperometric sensors; biosensors; electric impedance measurement; electrolytes; nanosensors; nanowires; AC real-time measurements; amperometric techniques; bio-nanosensors; complex impedance detection; impedance characterization; low cost hybrid system; nanowire-based sensors; phase data; phase measurement; real time pH detection; software interface; surface chemical modification measurement; surface-electrolyte interface; top-down fabricated nanowires; Impedance; Impedance measurement; Nanobioscience; Nanowires; Real-time systems; Sensors; Silicon; Nanowires; compact hybrid system; impedance spectroscopy; lock-in amplifiers;
Conference_Titel :
Ultimate Integration on Silicon (ULIS), 2014 15th International Conference on
Conference_Location :
Stockholm
DOI :
10.1109/ULIS.2014.6813901
