Nanoscale Research Letters (Jan 2011)

Conductive-probe atomic force microscopy characterization of silicon nanowire

  • Yu Linwei,
  • Cabarrocas Pere,
  • Perraud Simon,
  • Rouvière Emmanuelle,
  • Celle Caroline,
  • Mouchet Céline,
  • Simonato Jean-Pierre,
  • Alvarez José,
  • Ngo Irène,
  • Gueunier-Farret Marie-Estelle,
  • Kleider Jean-Paul

Journal volume & issue
Vol. 6, no. 1
p. 110

Abstract

Read online

Abstract The electrical conduction properties of lateral and vertical silicon nanowires (SiNWs) were investigated using a conductive-probe atomic force microscopy (AFM). Horizontal SiNWs, which were synthesized by the in-plane solid-liquid-solid technique, are randomly deployed into an undoped hydrogenated amorphous silicon layer. Local current mapping shows that the wires have internal microstructures. The local current-voltage measurements on these horizontal wires reveal a power law behavior indicating several transport regimes based on space-charge limited conduction which can be assisted by traps in the high-bias regime (> 1 V). Vertical phosphorus-doped SiNWs were grown by chemical vapor deposition using a gold catalyst-driving vapor-liquid-solid process on higly n-type silicon substrates. The effect of phosphorus doping on the local contact resistance between the AFM tip and the SiNW was put in evidence, and the SiNWs resistivity was estimated.