Title :
A Direct-Write Approach for Carbon Nanotube Catalyst Deposition
Author :
Omrane, Badr ; Papadopoulos, Chris
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Victoria, Victoria, BC, Canada
fDate :
5/1/2010 12:00:00 AM
Abstract :
Nanowriting was used to directly pattern carbon nanotube (CNT) catalyst solution with a scanning probe microscope. Glass nanopipettes filled with iron-based catalyst solutions were scanned in predefined patterns using contact mode atomic force microscopy on silicon/silicon dioxide substrates to create nanoscale catalyst surface distributions. Chemical vapor deposition using methane feedstock at 900??C produced single-walled CNTs in the patterned regions. Examination of patterning and growth conditions provided insight into the catalyst nanowriting process and the associated CNT growth. Two-terminal electronic transport measurements of the nanotube samples showed a typical resistance of 1 M??. The nanowriting technique allows precise nanoscale catalyst patterns of almost arbitrary geometry to be directly defined for CNT growth in a simple and inexpensive manner suitable for device prototyping and applications.
Keywords :
atomic force microscopy; carbon nanotubes; catalysts; chemical vapour deposition; nanofabrication; nanopatterning; silicon; silicon compounds; C; CNT growth; Si-SiO2; carbon nanotube catalyst deposition; carbon nanotube catalyst solution; catalyst nanowriting process; chemical vapor deposition; contact mode atomic force microscopy; device prototyping; direct-write approach; glass nanopipettes; growth conditions; iron-based catalyst solutions; methane feedstock; nanoscale catalyst patterns; nanoscale catalyst surface distributions; patterned regions; patterning; resistance 1 Mohm; scanning probe microscope; silicon-silicon dioxide substrates; single-walled CNT; temperature 900 degC; two-terminal electronic transport measurements; Carbon nanotubes; catalyst; nanowriting; single-walled;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2009.2029856
