Title :
Carbon nanotubes gas sensors: current status and future prospects
Author :
Cantalini, C. ; Valentini, L. ; Kenny, J.M. ; Lozzi, L. ; Santucci, S.
Author_Institution :
Dept. of Chem. & Mater., L´´Aquila Univ., Italy
Abstract :
CNT thin film sensors have been prepared by PECVD techniques on Si/Si3N4 micromachined substrates. The role of the preparation conditions on the intrinsic electrical properties of the CNTs (i.e. metallic or semiconductor nature) the role of the structural defects on the CNT gas response (i.e. sensitivity, selectivity and stability) the interaction mechanisms of oxidizing and reducing molecules with the CNT surface (i.e physisorption or chemisorption), are analysed and discussed by means of experimental measurements (microstructural and electrical characterizations) and theoretical simulations (density functional calculations). CNT films demonstrated their fitness for oxidizing gases monitoring (NO2 and O3), had good selectivity when water vapor and reducing gases are the interfering species, and good stability. Surface modifications and hybrid CNT structures are presented as possible routes to improve gas response.
Keywords :
adsorption; carbon nanotubes; chemisorption; gas sensors; nitrogen compounds; oxidation; ozone; reduction (chemical); C; CNT electrical properties; CNT gas response; CNT thin film sensors; NO2; O3; PECVD; Si-Si3N4; carbon nanotubes gas sensors; chemisorption; density functional calculations; metallic properties; microstructure; oxidizing gases monitoring; oxidizing molecules; physisorption; reducing molecules; selectivity; semiconducting properties; sensitivity; stability; structural defects; surface interaction mechanisms; Analytical models; Carbon nanotubes; Density measurement; Electric variables measurement; Gas detectors; Gases; Mechanical factors; Stability analysis; Substrates; Thin film sensors;
Conference_Titel :
Sensors, 2004. Proceedings of IEEE
Print_ISBN :
0-7803-8692-2
DOI :
10.1109/ICSENS.2004.1426185
