Title :
Graphitic oxide-induced enhanced electrical conductance in CuTCNQ nanorod film
Author :
Basori, Rabaya ; Raychaudhuri, A.K.
Author_Institution :
Dept. of Condensed Matter Phys. & Mater. Sci., S.N. Bose Nat. Centre for Basic Sci. Salt Lake, Kolkata, India
Abstract :
We demonstrate a simple method to increase the conductance of CuTCNQ nanorod film, using graphitic oxide. CuTCNQ nanorods are grown by a chemical method on prepatterned electrodes on glass substrate and as-grown nanorods are used to measure I-V at room temperature. The electrical conductance of CuTCNQ are then modified by graphitic oxide (GO) by dispersing it onto film of CuTCNQ nanorods. The conductance of the nanorod film is increased by approximately one order in magnitude. Increase in conductance occurs due to electronic charge transfer from graphitic oxide to CuTCNQ, which has been corroborated from the observed frequency shift of C≡N stretching mode, as seen in Fourier Transform Infrared Spectroscopy (FTIR).
Keywords :
Fourier transform infrared spectra; charge transfer states; electrical conductivity; graphite; nanofabrication; nanorods; organic semiconductors; organometallic compounds; semiconductor growth; semiconductor thin films; 7,7,8,8-tetracyanoquinodimethane; CO; CuTCNQ nanorod film; FTIR spectroscopy; Fourier transform infrared spectroscopy; I-V measurement; SiO2; chemical method; electronic charge transfer; glass substrate; graphitic oxide-induced enhanced electrical conductance; prepatterned electrodes; stretching mode; temperature 293 K to 298 K; Charge transfer; Chemicals; Films; Graphene; Nanoscale devices; Substrates; Temperature measurement; CuTCNQ; Graphitic oxide; charge transfer; conductance;
Conference_Titel :
Emerging Electronics (ICEE), 2014 IEEE 2nd International Conference on
Print_ISBN :
978-1-4673-6527-7
DOI :
10.1109/ICEmElec.2014.7151170
