posted on 2020-05-07, 09:59authored byZe'ev R. Abrams, Zvi Ioffe, Alexander Tsukernik, Ori Cheshnovsky, Yael Hanein
We describe and demonstrate a method of creating arrays of patterned, individual, single-walled carbon nanotubes, including the spectroscopic
mapping of the array. The process consists of creating networks of nanotubes suspended between silicon pillars, which are then transferred
onto other substrates by an innovative process of direct stamping. Raman spectroscopy is used to spatially map and assign the specific
properties of the suspended network prior to transfer. This method provides a simple and inexpensive means for deriving nanoscale devices
utilizing individually assigned carbon nanotubes in a robust and non-surface-specific technique.