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This thesis focuses on the electrochemical synthesis of
multi-segmented nanowires. In contrast to previous work, which was
largely limited to one-dimensional modifications, Tuncay Ozel
presents a technique, termed coaxial Lithography (COAL), which
allows for the synthesis of coaxial nanowires in a parallel fashion
with sub-10 nanometer resolution in both the axial and radial
dimensions. This work has significantly expanded current synthetic
capabilities with respect to materials generality and the ability
to tailor two-dimensional growth in the formation of core-shell
structures. These developments have enabled fundamental and applied
studies which were not previously possible. The COAL technique will
increase the capabilities of many researchers who are interested in
studying light-matter interactions, nanoparticle assembly,
solution-dispersible nanoparticles and labels, semiconductor device
physics and nanowire biomimetic probe preparation. The methodology
and results presented in this thesis appeal to researchers in
nanomaterial synthesis, plasmonics, biology, photovoltaics, and
photocatalysis.
This thesis focuses on the electrochemical synthesis of
multi-segmented nanowires. In contrast to previous work, which was
largely limited to one-dimensional modifications, Tuncay Ozel
presents a technique, termed coaxial Lithography (COAL), which
allows for the synthesis of coaxial nanowires in a parallel fashion
with sub-10 nanometer resolution in both the axial and radial
dimensions. This work has significantly expanded current synthetic
capabilities with respect to materials generality and the ability
to tailor two-dimensional growth in the formation of core-shell
structures. These developments have enabled fundamental and applied
studies which were not previously possible. The COAL technique will
increase the capabilities of many researchers who are interested in
studying light-matter interactions, nanoparticle assembly,
solution-dispersible nanoparticles and labels, semiconductor device
physics and nanowire biomimetic probe preparation. The methodology
and results presented in this thesis appeal to researchers in
nanomaterial synthesis, plasmonics, biology, photovoltaics, and
photocatalysis.
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