Title :
Investigation of carbon dioxide adsorption effects on graphene nanoribbon conductance
Author :
Akbari, E. ; Buntat, Z. ; Enzevaee, A.
Author_Institution :
Inst. of High Voltage & High Current, Univ. Teknol. Malaysia, Johor Bahru, Malaysia
Abstract :
A novel method is employed for the derivation of an analytical model for a carbon-dioxide (CO2) gas sensor based on graphene nanoribbon (GNR) conductance variation. The capacitance gradient created between the channel and the gate of a field effect transistor device is employed as an important property in the interpretation. Gas concentration and its effect on capacitance are incorporated as a modelling platform. In another attempt to model the electrical conductance in GNRs, an intelligent artificial neural network scheme is used in the modelling stage. A satisfactory agreement is presented by comparison between the empirical data extracted from a study conducted by Yoon et al. and the proposed models.
Keywords :
adsorption; capacitance; carbon compounds; electrical conductivity; field effect transistors; gas sensors; graphene; nanoribbons; nanosensors; ANN; C; CO2; CO2 gas sensor; FET device; capacitance gradient; carbon dioxide adsorption; carbon-di-oxide gas sensor; electrical conductance; field effect transistor device; gas concentration; graphene nanoribbon conductance; intelligent artificial neural network;
Journal_Title :
Electronics Letters
DOI :
10.1049/el.2015.0094
