Vanadium pentoxide (V2O5)
nanowires were directly transferred to desired patterns on
SiO2
substrates using the microcontact printing (MCP) technique. The hydrophilicity of the
poly(dimethylsiloxane) (PDMS) stamp exerted a strong influence on the mechanism of transfer of polar
V2O5 nanowires onto
the substrate. The V2O5
nanowires were transferred from the relief side of the hydrophilic stamp, whereas they were
transferred from the recess edges of the hydrophobic one forming agglomerated
nanowire patterns on the substrate. When the hydrophobic stamp was used,
the width of the agglomerated nanowire patterns could be controlled by the
concentration of the nanowire solution as well as by the width of the recess area of
the PDMS stamp. This method allows us to generate nanowire patterns with
a submicrometre line width, which is much smaller than a the few-micrometre
sizes of PDMS stamp patterns. When the hydrophilic stamp with a small-sized
(≤ the average
length of V2O5
nanowires) pattern was used, alignment of individual nanowires in the direction of the
boundary of the line pattern was obtained. These results suggest that the transfer
mechanism in the MCP process strongly depends on the wetting interaction between the
stamp and the nanowire ink.
A simple convenient way of forming a selective patterning on a single nanowire was demonstrated by using a conventional optical microscope. The fine resolution could reach approximately 5 i m, which is enough to define electrode patterns on a single nanowire in a two-probe configuration. The photolithographic processes were carried out under the microscope with photoresist-coated substrate deposited by nanowires. Through the image capture and a proper configuration of the various home-made photomasks could produce a selective patterning on an individual nanowire successfully. Current-voltage characteristics of an individual GaN single nanowire were measured as a demonstration.
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