![]() ![]() Leszczynski 15 - Functionalized Nanomaterials to Sense Toxins/Pollutant Gases Using Perturbed Microwave Resonant Cavities Aman Anand, J.A. Theoretical Calculations and Experimental Results Franco Cataldo 14 - New Approach to QSPR Modeling of Fullerene C60 Solubility in Organic Solvents: An Application of SMILES-Based Optimal Descriptors A.A. Fullerenes and nanotubes have engendered much excitement, especially with regard to possible future applications, but so far such applications have been few and far between. Linhardt 13 - Solubility of Fullerenes in Fatty Acids Esters: A New Way to Deliver In Vivo Fullerenes. Conducting carbon nanotubes may be coated with sheaths of metal sulfides to produce tiny insulated electrical wire. Stewart,IV 11 - Visualization of Carbon Nanoparticles Within Cells and Implications for Toxicity Alexandra Porter 12 - Pharmacological Applications of Biocompatible Carbon Nanotubes and Their Emerging Toxicology Issues Tae-Joon Park, Jeffrey G. Bolskar 9 - Biomolecules Functionalized Carbon Nanotubes and Their Applications Daxiang Cui 10 - Applications of Carbon-Based Nanomaterials for Drug Delivery in Oncology Nicole H. There are two major families of fullerenes, with fairly distinct properties and applications: the closed buckyballs and the open-ended cylindrical carbon nanotubes. Kiselev 8 - Gadolinium Endohedral Metallofullerene-Based MRI Contrast Agents Robert D. Scharff 7 - Biological Effects in Cell Cultures of Fullerene C60: Dependence on Aggregation State Levon B. Zarubaev, Oleg Kiselev, Inna Belousova, Vladimir Rylkov, Alexander Slita, Alexey Sirotkin, Pavel Anfimov, Tatyana Muraviova, and Andrey Starodubtsev 6 - Effects of Photoexcited Fullerene C60-Composites in Normal and Transformed Cells S.V. Hamblin 5 - Photodynamic Inactivation of Enveloped Viruses by Fullerene: Study of Efficacy and Safety Vladimir V. carbon nanotube, also called buckytube, nanoscale hollow tubes composed of carbon atoms. Tegos, Hariprasad Gali, Timothy Wharton, Tadeusz Sarna, and Michael R. Carbon nanotube comprising features, such as electrical connects, can be formed on a surface by irradiating a portion of a functionalized fullerene coating. In some cases, metal or metalloid atoms in a non-zero oxidation state do not form a carbide during the formation of the carbon-based nanostructures.Preface 1 - Twenty Years of Promises: Fullerene in Medicinal Chemistry Tatiana Da Ros 2 - Biomedical Applications of Functionalised Carbon Nanotubes Alberto Bianco, Raquel Sainz, Shouping Li, Hélène Dumortier, Lara Lacerda, Kostas Kostarelos, Silvia Giordani, and Maurizio Prato 3 - Antioxidant Properties of Water-Soluble Fullerene Derivatives Florian Beuerle, Russell Lebovitz, and Andreas Hirsch 4 - Fullerenes as Photosensitizers in Photodynamic Therapy Pawel Mroz, George P. In some embodiments, metal or metalloid atoms in a non-zero oxidation state are not reduced to a zero oxidation state during the formation of the carbon-based nanostructures. This hybrid material has useful properties of both fullerenes and carbon nanotubes. In this new material, fullerene-like 'buds' are covalently bonded to the outer sidewalls of the underlying carbon nanotube. The carbon-based nanostructures may be grown by exposing the nanopositor, in the presence or absence of a growth substrate, to a set of conditions selected to cause formation of carbon-based nanostructures on the nanopositor. Carbon nanobuds are a newly created material combining two previously discovered allotropes of carbon: carbon nanotubes and fullerenes. Fullerenes are molecular allotropes of carbon, exhibiting a wealth of interesting phenomena due to their -electron nature that can be easily manipulated by chemical means. These nanotubes are much longer than they are wide, therefore they have a high length to diameter. For example, the nanopositor may comprise a metal oxide, a metalloid oxide, a metal chalcogenide, a metalloid chalcogenide, and the like. Fullerenes can form thin cylinders known as carbon nanotubes. The nanopositor can comprise, in some embodiments, at least one of metal atoms in a non-zero oxidation state and metalloid atoms in a non-zero oxidation state. Chapter 2 Biomedical Applications of Functionalised Carbon Nanotubes Alberto Bianco1, Raquel Sainz1, Shouping Li1, Hlne Dumortier1, Lara Lacerda2. In some embodiments, the nanostructures may be formed on a nanopositor. Abstract: Systems and methods for the formation of carbon-based nanostructures are generally described. ![]()
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