<div class="h5">El martes 14 de mayo dará comienzo el Ciclo de Charlas del INFAP del año 2013. La primera charla estará a cargo del profesor invitado: <br></div><div class="gmail_quote"><div class="gmail_quote"><div class="gmail_quote">
<div class="gmail_quote"><div dir="ltr"><div><div class="h5">
<div><br><div style="text-align:center">
Ph.D. Wilfred T. Tysoe <br>
CV: <a href="http://surface.chem.uwm.edu/tysoe.html" target="_blank">http://surface.chem.uwm.edu/tysoe.html</a><br>
</div><p style="margin-bottom:0cm" align="CENTER"><span lang="en-US">Department
of Chemistry and Biochemistry and Laboratory for Surface Studies</span></p>
<p style="margin-bottom:0cm" align="CENTER"><span lang="en-US">University
of Wisconsin-Milwaukee, Milwaukee, WI 53211 USA</span></p><p style="margin-bottom:0cm" align="CENTER"><a href="http://surface.chem.uwm.edu/" target="_blank">http://surface.chem.uwm.edu/</a></p><div>
<br>Tema: "Chemical Self-Assembly Strategies for Nanoscale Devices"<br>
<br></div>
Resumen: <span lang="en-US">As the
requirement for higher component densities in integrated circuits
increases, the size of the components will approach molecular
dimensions and will therefore require molecular-scale strategies for
fabricating them. Rather than assembling the components of
nano-scale devices individually, approaches will have to be devised
in which the components spontaneously organize, or “self assemble”
to produce structures with potential device applications. Many
self-assembly strategies involve growing molecules from surfaces as,
for example, in alkyl thiolate self-assembled monolayers (SAMs). A
self-assembly strategy in which extended structures grow parallel to
a surface is proposed based on isocyanide-containing molecules,
illustrated using 1,4-phenylene diisocyanide (PDI). It is shown that
the isocyanide functionality binds strongly enough to gold that it
can extract gold atoms from low-coordination sites on a Au(111)
surface to form extended, one-dimensional oligomeric Au-PDI
structures. The </span>π<span lang="en-US">-conjugation is
maintained throughout the oligomeric species and that they are
reasonably mobile. This suggest that they can be used to make
electrical contacts between gold nanoparticles on surfaces, and this
notion is tested by exposing gold nanoparticles on a mica substrate
to PDI. This results in a significant reduction in resistivity of
the films (by over two orders of magnitude). Measuring the I/V
curves of the films for various initial gold coverages as a function
of sample temperature suggests that electron transport is via a
thermally assisted tunneling mechanism.</span>
<p style="margin-bottom:0cm" align="JUSTIFY"><span lang="en-US">The
effects of an imposed electric field on the conductive properties of
the films are measured by growing similar structures on a 300 nm
thick film of silica grown on a conducting silicon substrate. It is
also found that the infrared spectrum of Au-PDI oligomers on Au(111)
changes as a function of exposure to carbon monoxide and the
appearance of a free isocyanide vibrational mode implies that one end
of the isocyanide group decoordinates from the gold. Such a
decoordination would interrupt the conduction pathway and lead to an
increase in resistance with CO exposure, which is found
experimentally. This suggests that it might be possible to integrate
functionalities such as gas detection with potential nanoscale
devices based on diisocyanide chemistry.</span></p>
<br>Lugar y hora: Aula 34, Bloque II, 2º Piso a las 11 hs<br><br></div></div></div>Se agradece difusión<div class="im"><div><br><div><br>
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Instituto de Física Aplicada - INFAP<br>
Universidad Nacional de San Luis / CONICET<br>
Ej. de los Andes 950 - II Bloque - 2º Piso<br>
5700 San Luis - Argentina<br>
Tel: +54 266 4520329<br>
E-mail: <a href="mailto:infap@unsl.edu.ar" target="_blank">infap@unsl.edu.ar</a><br>
web: <a href="http://www.sanluis-conicet.gob.ar/infap/" target="_blank">http://www.sanluis-conicet.gob.ar/infap</a><span><font color="#888888">
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