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Fullerenes, Nanotubes and Carbon Nanostructures Volume 23, 2015 - Issue 12
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Original Articles

On The Action of Ozone on Single-Wall Carbon Nanohorns (SWCNH)

Franco CataldoActinium Chemical Research srl, Via Casilina, Rome, Italy;Dipartimento di Scienze Ecologiche e Biologiche, Universita della Tuscia, Viterbo, ItalyCorrespondence[email protected]
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Mihai V. PutzLaboratory of Structural and Computational Physical-Chemistry for Nanosciences and QSAR, Biology-Chemistry Department, West University of Timisoara, Pestalozzi Street No. 44, Timisoara, RO-300115, Romania;Laboratory of Renewable Energies-Photovoltaics, R&D National Institute for Electrochemistry and Condensed Matter, Dr. A. Paunescu Podeanu Str. No. 144, Timisoara, RO-300569, Romania
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Ornella UrsiniIstituto di Metodologie Chimiche, CNR, Via Salaria Km 29,300, 00016 Monterotondo Stazione, Rome, Italy
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Yasser HafezNational Center for Astronomy, KACST, P.O. Box 6086, Riyadh11442, Saudi Arabia
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Susana Iglesias-GrothInstituto de Astrofısica de Canarias, Via Lactea s/n, 38205La Laguna, Spain;Departamento de Astrofısica, Universidad de La Laguna (ULL), 38206La Laguna, Spain
Pages 1095-1102 | Received 16 Jul 2015, Accepted 20 Jul 2015, Published online: 09 Nov 2015
 
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Abstract

Single-Wall Carbon Nanohorns (SWCNH) were ozonized with two different methodologies in batch and in continuous. The oxidation degree of SWCNH was determined by the FT-IR spectroscopy which is also able to detect the presence of secondary ozonide groups. The thermal treatment of the ozonized SWCNH at 350°C under N2 caused the decomposition of the secondary ozonide groups as evidenced by FT-IR spectroscopy. Furthermore ozonized SWCNH were studied by differential scanning calorimetry (DSC). The typical exothermal decomposition of the ozonides was observed with DSC but at higher temperatures than usual and with an activation energy of 120 kJ/mol. Based on the decomposition heat released, about 4–5 secondary ozonide groups per each SWCNH were estimated. Fully ozonized SWCNH are easily and completely dispersible in distilled water giving a brown solution and lowering the pH to 5.9. Electronic absorption spectra of these solutions are reported. The water dispersions of ozonized SWCNH are able to reduce Ag+ ions to silver nanoparticles but the resulting colloidal solution is unstable and flocculate.

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