XU Zongwei

DONG Shen
Precision Engineering Research Institute,
Harbin Institute of Technology,
Harbin150001,China

GUO Liqiu
School of Mechanical Engineering, Tsinghua University,
Beijing 100084, China

ZHAO Qingliang
Precision Engineering Research Institute,
Harbin Institute of Technology,
Harbin 150001, China

Abstract: An improved arc discharge method is developed to fabricate carbon nanotube probe of atomic force microscopy (AFM) here. First, silicon probe and carbon nanotube are manipulated under an optical microscope by two high precision microtranslators. When silicon probe and carbon nanotube are very close, several tens voltage is applied between them. And carbon nanotube is divided and attached to the end of silicon probe, which mainly due to the arc welding function. Comparing with the arc discharge method before, the new method here needs no coat silicon probe with metal film in advance, which can greatly reduce the fabrication’s difficulty. The fabricated carbon nanotube probe shows good property of higher aspect ratio and can more accurately reflect the true topography of silicon grating than silicon probe. Under the same image drive force, carbon nanotube probe had less indentation depth on soft triblock copolymer sample than silicon probe. This showed that carbon nanotube probe has lower spring constant and less damage to the scan sample than silicon probe.

Key words: Carbon nanotube (CNT)  Atomic force microscope (AFM)  Probe Fabrication