posted on 2018-01-10, 00:00authored byGiuseppe Nasti, Sara Coppola, Federico Olivieri, Veronica Vespini, Vito Pagliarulo, Pietro Ferraro
Electrophoresis
(EP) and dielectrophoresis (DEP) are the two well-established
methodologies to manipulate nanoparticles (NPs). Recently, DEP by
a virtual electrode platform was demonstrated on ferroelectric substrates,
where the driving force is due to the strong electric field generated
by the pyroelectric effect, thus opening new scenarios for manipulating
the matter. Such an innovative approach named pyroelectric-DEP has
several advantages over traditional EP and DEP. However, a detailed
study on this novel approach is required for understanding the complex
pathways traced by NPs under the action of the pyroelectric-driven
forces and thus for explaining the final patterns. Here, we investigate
experimentally the dynamic behavior of CdSe NPs through time-lapse
fluorescence microscopy imaging. Complete visualization and measurement
of the directed-assembling process of NPs immersed in polydimethylsiloxane
fluid is reported, which shows some unpredicted results with respect
to the previous works, thus opening the route for designing in principle
a reversible and switchable device allowing two different and reversible
final NP-patterned states. The observed phenomena are fully analyzed by experimental and simulated
analysis, and the movements of NPs is performed to elucidate in depth
the involved processes. The investigation furnishes an interesting
result that the complex behavior of the NPs can be fully comprehended
and explained by considering the superposition of both EP and DEP
forces.