Detecting microparticles and their charge-state by nanoribbon sensors and physical modeling

In the last decade, CMOS nano FETs have attracted increasing interest as sensing devices for impedance spectroscopy of biomolecules [1]. In this context, we present a quantitative numerical analysis of dielectric microbead detection and charge-state discrimination experiments with nanoribbon (NR) FETs operated in the frequency domain up to 1 MHz.

Titolo: Detecting microparticles and their charge-state by nanoribbon sensors and physical modeling
Autori: 
SCARBOLO, Paolo
SELMI, Luca
Data di pubblicazione: 2017
Abstract: In the last decade, CMOS nano FETs have attracted increasing interest as sensing devices for impedance spectroscopy of biomolecules [1]. In this context, we present a quantitative numerical analysis of dielectric microbead detection and charge-state discrimination experiments with nanoribbon (NR) FETs operated in the frequency domain up to 1 MHz.
Handle: http://hdl.handle.net/11390/1117877
Appare nelle tipologie:4.1 Contributo in Atti di convegno

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