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Photophysics of Carbon Nanotubes Interfaced with Organic and Inorganic Materials

Photophysics of Carbon Nanotubes Interfaced with Organic and Inorganic Materials
Author: Igor A. Levitsky
Publisher: Springer Science & Business Media
Total Pages: 274
Release: 2012-12-22
Genre: Technology & Engineering
ISBN: 1447148266
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Photophysics of Carbon Nanotubes Interfaced with Organic and Inorganic Materials describes physical, optical and spectroscopic properties of the emerging class of nanocomposites formed from carbon nanotubes (CNTs) interfacing with organic and inorganic materials. The three main chapters detail novel trends in photophysics related to the interaction of light with various carbon nanotube composites from relatively simple CNT/small molecule assemblies to complex hybrids such as CNT/Si and CNT/DNA nanostructures. The latest experimental results are followed up with detailed discussions and scientific and technological perspectives to provide a through coverage of major topics including: -Light harvesting, energy conversion, photoinduced charge separation and transport in CNT based nanohybrids -CNT/polymer composites exhibiting photoactuation; and -Optical spectroscopy and structure of CNT/DNA complexes. Including original data and a short review of recent research, Photophysics of Carbon Nanotubes Interfaced with Organic and Inorganic Materials makes this emerging field of photophysics and its applications available to academics and professionals working with carbon nanotube composites in fundamental and applied fields

Photophysical Properties of Single-walled Carbon Nanotubes

Photophysical Properties of Single-walled Carbon Nanotubes
Author: Zhentao Hou
Publisher:
Total Pages: 121
Release: 2018
Genre:
ISBN:
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"Single-walled carbon nanotubes (SWCNTs) have unique electronic and optical properties due to the one-dimensional confinement, whereby strongly bound electron-hole pairs, i.e. excitons, play a very important role. Well-isolated SWCNTs display stable and robust photoluminescence (PL) in the near infrared (NIR), which depends on the SWCNT diameter and chirality. Previously, it has been discovered that the PL from DNA-wrapped SWCNTs can be enhanced by up to an order of magnitude upon addition of small molecular reducing agents to the SWCNT suspension. We report studies on the photophysics of isolated SWCNTs upon addition of dithiothreitol (DTT) for various aqueous surfactant-SWCNT suspensions. Similar to DNA-wrapped SWCNTs, sodium dodecyl sulfate (SDS) dispersed SWCNTs also display significant PL brightening upon addition of DTT, while the other surfactant-SWCNTs studied show PL quenching to different extents. Ensemble PL QY and PL lifetime measurements suggest that the addition of DTT has substantial effects on both radiative and non-radiative decay processes in SWCNTs. These results are consistent with changes caused by surfactant reorganization around SWCNTs. Additionally, PL imaging performed on individual long SDS-SWCNTs shows a single step, uniform PL brightening along the entire SWCNT, further supporting the hypothesis that surfactant reorganization is responsible for the PL enhancement. We also present studies on the excited-state decay dynamics of K-momentum dark excitons (KDE) in SWCNTs. These excitons have finite center-of-mass momenta, which are optically forbidden, and therefore should have substantially longer lifetimes than the bright S1 exciton. We have determined the PL lifetimes of both KDE and S1 states for chirality-enriched SWCNT samples using time-correlated single photon counting. Indeed, the average PL lifetime of the KDE state is more than three times longer than that of the S1 state. Somewhat unexpectedly, PL from the KDE state displays a biexponential decay for both SWCNT chiralities studied. The long time component most likely represents the PL decay from the KDE state, whereas the origin of the short time component is not fully understood yet and requires further investigation."--Pages ix-x.

Photophysical Properties of Perturbed Single-walled Carbon Nanotubes

Photophysical Properties of Perturbed Single-walled Carbon Nanotubes
Author: Trevor Michael Tumiel
Publisher:
Total Pages: 0
Release: 2023
Genre:
ISBN:
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"Single-walled carbon nanotube (SWCNT) photophysical properties are remarkably sensitive to environmental factors, as all carbon atoms lie on the surface and are readily exposed to various solvents, surfactants and forces. Such environmental sensitivities mean that the simplest sample preparation treatments can lead to complicated, and often unintended, consequences. In this dissertation, photophysical impact of (i) unintentional lattice defects and (ii) heterogeneous surfactant aggregation on SWCNTs will be investigated. The presence of lattice defects, regularly the result of synthesis and sonication methods, plays a significant role in the brightening of the K-momentum dark exciton state, which manifests as a redshifted photoluminescence (PL) feature located roughly 130 meV from the dominant E11 SWCNT emission feature. Time-correlated single photon counting measurements of SWCNT samples at various temperatures and lattice defect densities, in concert with kinetic modeling, reveal PL dynamics dominated by dark state reservoirs that continuously feed bright excitonic activity. Such information supports the investigation of the photoactive states that can cause unintentional spectral congestion in the valuable telecommunication band. While ionic surfactants have long been used to disperse individual SWCNTs in solution for optical studies, heterogeneous surfactant aggregates behave as localized and unavoidable charge impurities. By correlating single molecule PL spectroscopy with atomic force microscopy, the impact of these local electrostatic perturbations on the optical properties of SWCNTs is directly probed. The results reveal bright, redshifted PL emission from sites of surfactant aggregation, indicating charge-induced localized excitonic activity along the lengths of individual SWCNTs. Together, the studies underscore the complex photophysical effects that can be readily accessed by local perturbations imparted by environmental factors, even if unintended."--Pages xiv-xv.

Photophysics of Single-walled Carbon Nanotubes and Their Applications

Photophysics of Single-walled Carbon Nanotubes and Their Applications
Author: Amanda Rose Amori
Publisher:
Total Pages: 162
Release: 2018
Genre:
ISBN:
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"Single-walled carbon nanotubes (SWCNTs) are quasi-1D graphitic materials whose excited state properties are governed by electrostatically bound electron-hole pairs, called excitons. SWCNTs have garnered much attention recently due to their unique size-dependent optical and electronic properties. As the understanding of SWCNT photophysics continues to grow, there now exists an incredible opportunity for SWCNTs to drive novel breakthroughs in various applications including water oxidation, photovoltaics, field-effect transistors, and electron-conductive/proton permeable membranes, where nanotubes are called upon to act as light-harvesting and/or charge-transfer materials. However, underlying the eventual performance of SWCNTs in these applications is a need for a deep understanding of their photophysics. This dissertation will focus on some of the fundamental properties of SWCNTs and their photophysics, and will address some of the recent work done to understand (i) the mechanism behind population of a quantum mechanically forbidden "dark" state within the SWCNT band structure, known as the K-momentum dark exciton state, and (ii) the formation of charged excitons upon non-covalent doping of SWCNTs. Further, this work will detail two interesting applications of SWCNTs: Using SWCNTs for photoinduced charge transfer and for simultaneous proton/electron transport."--Page xv.

Spectroscopy of Individual Single-Walled Carbon Nanotubes

Spectroscopy of Individual Single-Walled Carbon Nanotubes
Author: Oliver Kiowski
Publisher: Sudwestdeutscher Verlag Fur Hochschulschriften AG
Total Pages: 168
Release: 2011-10
Genre:
ISBN: 9783838129303
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A thermal chemical vapor deposition (CVD) reactor was built and used to grow vertically and horizontally aligned carbon nanotube arrays. The as-grown nanotubes were investigated on a single tube level using near-infrared photoluminescence (PL) microscopy and PL excitation spectroscopy as well as Raman, atomic force and scanning electron microscopy. The PL of single-walled carbon nanotubes (SWNT) in different surroundings and at temperatures down to 4 K was analyzed. Ultralong CVD-grown nanotubes were imaged on Si/SiO2 to determine their chirality and to check structural integrity along the nanotube length. Furthermore, ultralong SWNTs were manipulated (moved, bent and fractured) employing an AFM. Finally, a new approach to determine relative abundances and PL quantum yields of semiconducting SWNTs in dispersions is presented, which is based on statistical counting of individual nanotubes by means of PL spectroscopy.

Optical Spectroscopy of Bound Excitonic States in Single Walled Carbon Nanotubes

Optical Spectroscopy of Bound Excitonic States in Single Walled Carbon Nanotubes
Author: Silvia Morim Santos
Publisher:
Total Pages: 0
Release: 2012
Genre:
ISBN:
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In this dissertation we report on original experimental investigations of the photophysical properties of individual single-walled carbon nanotubes (SWCNTs) at the single molecule level. We focused on two problems: the effect of water-filling nanotubes on their photoluminescence (PL) properties and generation of multi-excitonic complexes in regimes of strong laser excitation. To do so we used a combination of microscopy, PL spectroscopy and PL time decay measurements. Our results show, for different nanotube diameters, a red-shift of the PL emission energy for water-filled nanotubes. Furthermore, biexponential PL time decay behaviors are obtained for individual water-filled and empty (6,4) SWCNTs. The characteristic decay times for both species of nanotubes are distinct, with a reduction of the short component in water-filled SWCNTs. These results are explained by an increase of the dielectric constant for water-filled nanotubes. Our most consequential experimental result was the observation of all optical trion generation in undoped nanotubes. Trion emission appears in the PL spectrum as a red-shifted sideband. Based on our experimental observations, we propose a trion generation model according to which, at a multiexcitonic regime, exciton-exciton annihilation interactions create charge carriers that are transiently trapped at electrostatic potential fluctuations induced by the inhomogeneities of the environment. Subsequent photon absorption leads to trion formation localized at the trapped carriers.