posted on 2019-11-14, 14:43authored byStefan Fringes, C. Schwemmer, Colin D. Rawlings, Armin W. Knoll
Accurate deposition of nanoparticles at defined positions
on a
substrate is still a challenging task, because it requires simultaneously
stable long-range transport and attraction to the target site and
precise short-range orientation and deposition. Here we present a
method based on geometry-induced energy landscapes in a nanofluidic
slit for particle manipulation: Brownian motors or electro-osmotic
flows are used for particle delivery to the target area. At the target
site, electrostatic trapping localizes and orients the particles.
Finally, reducing the gap distance of the slit leads sequentially
to a focusing of the particle position and a jump into adhesive contact
by several nanometers. For 60 nm gold spheres, we obtain a placement
accuracy of 8 nm. The versatility of the method is demonstrated further
by a stacked assembly of nanorods and the directed deposition of InAs
nanowires.