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Type: 
Conference
Description: 
An innovative JFET bio-transistor, based on a metal oxide (MOX) nanowire bundle, was developed in order to electrically detect biological binding. The working principle of this device relies on modulation of a MOX space charge region (SCR), acting as the channel of a field effect transistor, instead of an enriched/depleted Si channel like in chem.-FETs. The feasibility was at first demonstrated by the development of a bio-sensor made of an SnO 2 thin film derivatized with oligodeoxyribonucleotide-probes. We implemented a protocol to immobilize single strands of nucleic acid over SnO 2 and developed a system for electrical sensing of hybridization in liquid solution. The same protocol was then applied on a SnO 2 nanowire bundle, synthesized by thermal evaporation of oxide powders under controlled conditions with the presence of Pt catalyst. The results obtained on a group of nanowires suggest the possibility …
Publisher: 
IEEE
Publication date: 
28 Oct 2007
Authors: 

C Baratto, S Todros, E Comini, G Faglia, M Ferroni, G Sberveglieri, G Andreano, L Cellai, A Flamini, G Marrazza, Andrea Nannini, Giovanni Pennelli, M Piotto

Biblio References: 
Pages: 1132-1135
Origin: 
SENSORS, 2007 IEEE