We present a method that uses patterned self-assembled monolayers (SAMs) of alkanethiolates on silver as templates to fabricate ordered two-dimensional arrays of solid US nanoclusters. The US is grown by electrochemical atomic layer epitaxy inside sub-micrometric stripes of hexadecanthiol SAM fabricated by microcontact printing. US ultrathin films grow and self-organize into an ordered pattern of nanoclusters. This pattern exhibits both lithographically imposed ordered structures and a self-affine structure along the direction perpendicular to the stripes. On the contrary, along the direction parallel to the stripes no spatial correlation among the clusters has ever been observed.
Two-dimensional self-organization of CdS ultra thin films by confined electrochemical atomic layer epitaxy growth
M Cavallini;C Albonetti;F Biscarini;
2007
Abstract
We present a method that uses patterned self-assembled monolayers (SAMs) of alkanethiolates on silver as templates to fabricate ordered two-dimensional arrays of solid US nanoclusters. The US is grown by electrochemical atomic layer epitaxy inside sub-micrometric stripes of hexadecanthiol SAM fabricated by microcontact printing. US ultrathin films grow and self-organize into an ordered pattern of nanoclusters. This pattern exhibits both lithographically imposed ordered structures and a self-affine structure along the direction perpendicular to the stripes. On the contrary, along the direction parallel to the stripes no spatial correlation among the clusters has ever been observed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
