2006 APS March Meeting
Monday–Friday, March 13–17, 2006;
Baltimore, MD
Session W24: Focus Session: Lithography
2:30 PM–5:30 PM,
Thursday, March 16, 2006
Baltimore Convention Center
Room: 321
Sponsoring
Unit:
DPOLY
Chair: Ronald Jones, National Institute of Standards and Technology
Abstract ID: BAPS.2006.MAR.W24.2
Abstract: W24.00002 : Nanometer-scale control of the crystallization of oligomers and polymers.
3:06 PM–3:42 PM
Preview Abstract
Abstract
Author:
Alain M. Jonas
(Universite catholique de Louvain)
The ability to control the position and local orientation of organic
crystals at the nanometer scale paves the way to the fabrication
of hybrid
nano-devices displaying better properties. Here, we present two
ways to
control the assembly of organic chain compounds into nanometric
crystals of
defined location or orientation. We first show how the location
of crystals
of model oligomers can be directed by chemical nano-templates
[1]. The
templates are obtained by combining electron-beam lithography
with the
deposition of self-assembled monolayers [2]. These surfaces can
then be used
to control a variety of assembly processes [3], such as the
crystallization
of model alkane-1-ol oligomers in solution. By using directing
maps with the
appropriate chemical inks, nano-squares, nano-corrals and
nano-lines of
organic crystals are rapidly and massively grown at pre-defined
locations,
at least down to 60 nm. At this scale, confinement effects
mediated by van
der Waals forces become prominent, providing a unique handle to
design
crystal growth. Then, we show how the nucleation and orientation
of polymer
crystals can be controlled by nano-imprint lithography [4]. The
combination
of confinement, and of preferential nucleation at the vertical
walls of the
nano-molds probably arising from partial chain orientation due to
the
polymer flow during embossing, results in local control over the 3D
orientation of the crystals. We demonstrate that crystals may be
guided
through complex geometries, and investigate the case of systems
where
conflicting instructions are delivered to the crystallizing chains.
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References:
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[1] J. Plain et al., submitted.
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[2] A. Pallandre et al., Nano Letters 2004, 4, 365.
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[3] A. Pallandre et al., J. Am. Chem. Soc. 2005, 127, 4320; F.A.
Denis et
al., Small 2005, 1, 984; A. Pallandre et al., Adv. Mater., in press.
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[4] Zhijun Hu et al., Nano Letters 2005, 5, 1738.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2006.MAR.W24.2