Optical properties of conductive carbon-based nanomaterials
The interaction of light with carbon nanomaterials is the main focus of this
thesis. I explore several nanostructured systems involving different allotropes of
carbon, and characterize them both electrically, if applicable, and optically. Special
attention is paid to search for plasmon-like excitations on the systems, or utilizing
surface plasmons on characterization.
The first objective is to achieve control of carbon nanotube (CNT) conductivity
with surface plasmon polaritons (SPPs), which resulted in the first CNT field-effect
transistor (FET) that can be gated definitively with SPPs. The second objective is the
investigation of optical properties of various thin carbon-based molecular networks.
Recently developed methods allow separation of different types of CNTs. Inspired
by that, films consisting of only metallic-type single-walled (SW)CNTs were studied,
which led to the discovery of a dispersive collective optical resonance in these thin
films.With similar methods, conductive polymer films were also measured.
To pursue the first goal, a FET was fabricated using a semiconducting-type
SWCNT and a thin silver film as a backgate, on which SPPs were excited close to the
CNT via the Kretschmann total internal reflection (TIR) configuration. As a result,
the CNT FET could be gated at a low optical excitation power using SPPs, which
most likely trigger desorption on the device, alter the Schottky barriers on CNT
contacts and modulate the current. A scanning near-field optical microscope was
also used to measure the local photosensitivity of the CNT FETs.
Thin films of chirality-selected SWCNTs were measured with optical spectroscopy
in TIR conditions, and a new collective excitation was discovered in metallictype
SWCNTs. This dispersive phenomenon appeared only with a polarization not
able to excite regular SPPs, and was linked to the excitonic transitions of the tubes.
It shared features with SPPs such as the dependence on both the film thickness and the properties of the surrounding medium. Transparent conductive polymer
films, some with graphene flakes, were also characterized, and their optical properties
evaluated with TIR spectroscopy. No plasmonic or other peculiar resonances
were detected, but the study led to a method to evaluate the optical anisotropy in
thin polymer films. Using this method, it was possible to measure thick and uneven
films, that are unsuitable for ellipsometry.
...
Publisher
University of JyväskyläISBN
978-951-39-6806-9ISSN Search the Publication Forum
0075-465XKeywords
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