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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Gasphasenuntersuchungen zu Geometrie und Ladungstransfer von Kohlenstoffclustern

Heusler, Gero. January 1999 (has links)
Berlin, Freie Universiẗat, Diss., 1999. / Dateiformat: zip, Dateien im PDF-Format.
12

Reaction of Open Cage Fullerene with Triosmium Carbonyl Clusters

Lien, Shao-Tang 15 February 2012 (has links)
none
13

Nanostrukturierte Fullerenschichten für organische Bauelemente /

Deutsch, Denny. January 2008 (has links)
Zugl.: Dresden, Techn. Universiẗat, Diss., 2008.
14

Adsorption of C←6←0 on surfaces

Hunt, Michael Richard Charles January 1995 (has links)
No description available.
15

Organofunctional [60]fullerene chemistry

O'Donovan, Bryan Finbarr January 1999 (has links)
No description available.
16

Electron transfer and fragmentation in fullerene collisions

Zettergren, Henning January 2005 (has links)
<p>In this thesis, we present results from detailed gas phase studies of intrinsic properties of fullerenes (C<sub>60</sub>) and clusters of fullerenes as probed by slow multiply charged (atomic or cluster) ions in combination with coincidence time-of-flight mass spectrometry. We have investigated the structures, stabilities, and the electron mobilities of multiply charged clusters of fullerenes, (C<sub>60</sub>)<sub>n</sub><sup>r+</sup> (r=2-5). We found that the (C<sub>60</sub>)<sub>n</sub><sup>r+</sup> cluster ions are weakly bound by van der Waals forces and the electric conductivity is high in strong contrast to the typical characteristics of other van der Waals type clusters and fullerene crystals (fullerite), where the charge is strongly localized. The high charge mobility was rationalized within the framework of a novel classical static over-the-barrier model for two conducting spheres used to describe multiple charge transfer processes between two neighboring fullerenes in the cluster. The model results showed that electron transfer is possible as soon as the C<sub>60</sub>-C<sub>60</sub> system is charged, consistent with earlier experimental results from slow C<sub>60</sub><sup>q+</sup> + C<sub>60</sub> collisions where an electric contact is established (during the very short interaction time of the collision) between the two molecules at distances outside the binding distance in the C<sub>60</sub>-C<sub>60</sub> system. The present electrostatic model was also used to guide the interpretation of the measured kinetic energy releases in the fragmentation of multiply charged dimers, (C<sub>60</sub>)<sub>2</sub><sup>r+</sup> → C<sub>60</sub><sup>r1</sup>+ + C<sub>60</sub><sup>r2+</sup>. </p><p>In like manner, we have measured kinetic energy releases in the break-ups of multiply charged monomer fullerene ions with the aid of fragment-ion momentum spectroscopy. This yielded an excellent platform for investigations of the projectile and target dependencies on various intrinsic features such as the ultimate Coulomb stability limits for C<sub>60</sub><sup>r+</sup> and C<sub>70</sub><sup>r+</sup> ions, competition between different reaction pathways, and multi-fragmentation processes. The experimental results for the stability limits for multiply charged fullerenes are discussed in view of recent high level Density Functional Theory calculations of C<sub>60</sub><sup>r+</sup> → C<sub>58</sub><sup>(r-1)+</sup> + C<sub>2</sub><sup>+</sup> transition states and our electrostatic model. </p><p>The Density Functional Theory results are also used to check the validity and limitations of the classical model regarding the description of fragmentation processes, while a comparison with advanced molecular dynamic calculations of Ar<sup>8+</sup>+Na<sub>40</sub> collisions were made for investigating its applicability for charge transfer processes. We found that the present model indeed is useful for describing main features in inherent complex molecular processes at sufficiently low collision velocities. In addition, we propose an extension of the present model to consider two dielectric spheres immersed in a dielectric medium, which might be applied also outside the cluster research field.</p>
17

Electron transfer and fragmentation in fullerene collisions

Zettergren, Henning January 2005 (has links)
In this thesis, we present results from detailed gas phase studies of intrinsic properties of fullerenes (C60) and clusters of fullerenes as probed by slow multiply charged (atomic or cluster) ions in combination with coincidence time-of-flight mass spectrometry. We have investigated the structures, stabilities, and the electron mobilities of multiply charged clusters of fullerenes, (C60)nr+ (r=2-5). We found that the (C60)nr+ cluster ions are weakly bound by van der Waals forces and the electric conductivity is high in strong contrast to the typical characteristics of other van der Waals type clusters and fullerene crystals (fullerite), where the charge is strongly localized. The high charge mobility was rationalized within the framework of a novel classical static over-the-barrier model for two conducting spheres used to describe multiple charge transfer processes between two neighboring fullerenes in the cluster. The model results showed that electron transfer is possible as soon as the C60-C60 system is charged, consistent with earlier experimental results from slow C60q+ + C60 collisions where an electric contact is established (during the very short interaction time of the collision) between the two molecules at distances outside the binding distance in the C60-C60 system. The present electrostatic model was also used to guide the interpretation of the measured kinetic energy releases in the fragmentation of multiply charged dimers, (C60)2r+ → C60r1+ + C60r2+. In like manner, we have measured kinetic energy releases in the break-ups of multiply charged monomer fullerene ions with the aid of fragment-ion momentum spectroscopy. This yielded an excellent platform for investigations of the projectile and target dependencies on various intrinsic features such as the ultimate Coulomb stability limits for C60r+ and C70r+ ions, competition between different reaction pathways, and multi-fragmentation processes. The experimental results for the stability limits for multiply charged fullerenes are discussed in view of recent high level Density Functional Theory calculations of C60r+ → C58(r-1)+ + C2+ transition states and our electrostatic model. The Density Functional Theory results are also used to check the validity and limitations of the classical model regarding the description of fragmentation processes, while a comparison with advanced molecular dynamic calculations of Ar8++Na40 collisions were made for investigating its applicability for charge transfer processes. We found that the present model indeed is useful for describing main features in inherent complex molecular processes at sufficiently low collision velocities. In addition, we propose an extension of the present model to consider two dielectric spheres immersed in a dielectric medium, which might be applied also outside the cluster research field.
18

Toward Fullerene Immunotherapy with Water-Soluble Paclitaxel-Fullerene Conjugates

Berger, Christopher 13 May 2013 (has links)
For the first time, two distinct, well-characterized water-soluble chemotherapeutic-C60 conjugates have been constructed for targeted drug delivery of paclitaxel to cancer cells. In vitro work was carried out in two stages to determine IC50 values of the conjugates. Primarily, work was carried out on A375m melanoma, T-24 bladder carcinoma, and Hep 3B hepatocellular carcinoma cell lines. In these studies, it was revealed that although the first compound, a paclitaxel-2’-succinate-C60 derivative, experienced a dramatic loss of cytotoxicity in comparison to paclitaxel, the second derivative, utilizing a poly(ethylene glycol) linker, demonstrated over 10× better cytotoxicity than paclitaxel itself. Additional in vitro studies were carried out for the purpose of creating a chemotherapeutic-fullerene-monoclonal antibody immunoconjugate for targeted drug delivery. Building on our previous work, supermolecular forces, instead of covalent chemical bonding were used to associate antibodies with the paclitaxel-2’-succinate-C60 derivative to construct an immunoconjugate. While cytotoxicity was measurable, no discernible advantage was seen by the targeted C60-(ZME-018) immunoconjugate over a MuIgG control, thus leaving room for further refinement of the approach for targeted cancer therapy. In vivo work, using the potent paclitaxel-poly(ethylene glycol)-C60 derivative in a murine model, demonstrated success by producing a similar capacity for tumor-reduction compared to the FDA-approved drug Abraxane®, without the associated weight-loss in animals seen for Abraxane. A major contribution of this work is the progress made toward development of Fullerene Immunotherapy (FIT) and the potential translation of FIT into the clinic. Having demonstrated the potent, improved cytotoxicity of a paclitaxel-C60 conjugate, the next step in the development of FIT is the successful construction of a therapeutic fullerene-antibody immunoconjugate. The results documented in this work have now shifted the onus of FIT from a theoretical concept to a realistic goal awaiting final developmental refinement.
19

Reaction of C60H(PPh2) with Triosmium Carbonyl Clusters

Tsai, Kune-you 26 October 2009 (has links)
none
20

Carbon nanotubes : production, growth and characterisation

Hsu, Wen-Kuang January 1997 (has links)
No description available.

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