Controlling the stick and slip motions of the contact lines in a confined geometry comprised of a spherical lens with a flat substrate is useful for manufacturing polymer ring patterns. We used a sphere on a flat geometry, by which we could control the interfaces of the solution, vapor and substrate. By this method, hundreds of concentric ring-pattern formations of a linear conjugated polymer, poly [2-methoxy-5-(2-thylhexyloxy)-1,4-phenylenevinylene] (MEH-PPV), were generated with excellent regularity over large areas after complete solvent evaporation. Subsequently, the MEH-PPV ring patterns played a role as a directed template to organize highly regular concentric rings of single-walled carbon nanotubes(SWCNTs); when a droplet of the SWCNT suspension in water was casted onto the prepared substrate, hydrophobic polymer patterns confined the water dispersed SWCNTs in between the hydrophilicized SiO2/Si substrate. As the solvent evaporated, SWCNT-rings were formed in between MEH-PPV rings with controlled density. Finally, we used a lift-off process to produce SWCNT patterns by the removal of a sacrificial polymer template with organic solvent. We also fabricated a field effect transistor using self-assembled SWCNT networks on a SiO2/Si substrate.

• 강석희(부산대학교 인지메카트로닉스공학과) | Kang, Seok Hee
• 정도영( 부산대학교 차세대기판회로학과) | 정도영
• 엄성운( 부산대학교 나노소재공학과) | 엄성운
• 황청석( 부산대학교 나노소재공학과) | 황청석
• 홍석원( 부산대학교 인지메카트로닉스공학과, 부산대학교 나노소재공학과) | 홍석원