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  • Microcontact printing for patterning carbon nanotube/polymer composite films with electrical conductivity.

Microcontact printing for patterning carbon nanotube/polymer composite films with electrical conductivity.

ACS applied materials & interfaces (2012-08-21)
Hitoshi Ogihara, Hiro Kibayashi, Tetsuo Saji
ABSTRACT

Patterned carbon nanotube (CNT)/acrylic resin composite films were prepared using microcontact printing (μCP). To prepare ink for μCP, CNTs were dispersed into propylene glycol monomethyl ether acetate (PGMEA) solution in which acrylic resin and a commercially available dispersant (Disperbyk-2001) dissolved. The resulting ink were spin-coated onto poly(dimethylsiloxane) (PDMS) stamps. By drying solvent components from the ink, CNT/polymer composite films were prepared over PDMS stamps. Contact between the stamps and glass substrates provided CNT/polymer composite patternings on the substrates. The transfer behavior of the CNT/polymer composite films depended on the thermal-treatment temperature during μCP; thermal treatment at temperatures near the glass-transition temperature (T(g)) of the acrylic resin was effective to form uniform patternings on substrates. Moreover, contact area between polymer and substrates also affect the transfer behavior. The CNT/polymer composite films showed high electrical conductivity, despite the nonconductivity of polymer components, because CNTs in the films were interconnected. The electrical conductivity of the composite films increased as CNT content in the film became higher; as a result, the composite patternings showed almost as high electrical conductivity as previously reported CNT/polymer bulk composites.

MATERIALS
Product Number
Brand
Product Description

Supelco
1-Methoxy-2-propanol, analytical standard
Sigma-Aldrich
1-Methoxy-2-propanol, ≥99.5%