From: chemistry-request at ccl.net <br />
To: chemistry-request at ccl.net<br />
Date: Wed Jun  2 16:31:23 2010<br />
Subject: 10.10.03 <span class="fancysmall">First Announcement Call for Papers for Symposium at 8th International Conference of Computational Methods in Sciences and Engineering 2010 (ICCMSE 2010),  Psalidi, Kos, Greece</span><br />

<pre>First Announcement Call for Papers for Symposium at the 8th International 
Conference of Computational Methods in Sciences and Engineering (2010)

Symposium Title: Molecular engineering and modelling of functional and 
functionalizable nanostructures

Dear Colleague
 This year I am organizing the symposium &quot;Molecular engineering and 
modelling of functional and functionalizable nanostructures&quot; (symposium 20)
in the framework of the 8th International Conference of Computational 
Methods in Sciences and Engineering 2010 (ICCMSE 2010), in the 
Hotel Kypriotis Village-Kypriotis Panorama-Kypriotis International 
Conference Center, Psalidi, Kos, Greece, 03-08 October 2010.

Webpage: <a href="http://www.iccmse.org/" target="_blank">http://www.iccmse.org/</a>

Organizer
Aristides D. Zdetsis
Division of Theoretical and Mathematical Physics
Department of Physics
University of Patras
GR-26500 Patras, Greece
tel.: (+30) 2610 997458
fax: (+30) 2610 997458
e-mail: zdetsis#upatras.gr, zdetsis#physics.upatras.gr
Webpage: <a href="http://moleng.physics.upatras.gr/personnel/ADZdetsis.html" target="_blank">http://moleng.physics.upatras.gr/personnel/ADZdetsis.html</a>

Scope and Topics
   Functional and/or functionalizable nanostructures, such as fullerenes 
and nanotubes of all kinds or nanocrystalline and nanocomposite materials,
are very important for applications in (materials) science, 
(nano)technology, and (nano)medicine, among many others.
   For all these applications, understanding at a fundamental level is 
very important, since nanocomposite and nanocrystalline materials exhibit 
a variety of unique physical and chemical properties resulting from the 
interplay of quantum confinement and electronic correlation. In order to 
design functional nanomaterials with desired properties and fabricate 
nanodevices with predictable behavior, it is critical to understand their 
structural and electronic properties on a fundamental quantum mechanical 
level. This could further allow for tunable manipulation of the resulting 
nanosystems.
   Nanostructures such as core and core/shell nanocrystals, fullerenes and 
nanotubes of all kinds, nanowires, nanolines, nanorods, as well as 
synthetic, nanocomposite, porous, metal-organic framework, and 
semiconductor-organic framework materials, will be considered among others, 
and the latest developments will be discussed and analyzed in this workshop. 
In addition theoretical and computational techniques appropriate for large 
systems (such as multiscale approaches and atomistic calculations and 
simulations) as well as theoretical, computational, or even experimental 
works related (directly or indirectly) with these topics are welcome.</pre>
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