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Fullerenes, Nanotubes and Carbon Nanostructures Volume 15, 2007 - Issue 1
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Original Articles

Carbon Nanostructure Reactivity: Reactions of Graphite Powders with Ozone

S. D. Razumovskii Emanuel Institute of Biochemical Physics, Russian Academy of Sciences, Moscow, RussiaCorrespondence[email protected]
,
V. N. Gorshenev Emanuel Institute of Biochemical Physics, Russian Academy of Sciences, Moscow, Russia
,
A. L. Kovarskii Emanuel Institute of Biochemical Physics, Russian Academy of Sciences, Moscow, Russia
,
A. M. Kuznetsov Emanuel Institute of Biochemical Physics, Russian Academy of Sciences, Moscow, Russia
&
A. N. Shchegolikhin Emanuel Institute of Biochemical Physics, Russian Academy of Sciences, Moscow, Russia
Pages 53-63 | Received 11 Nov 2005, Accepted 05 Dec 2005, Published online: 12 Jan 2007

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Franco Cataldo, Mihai V. Putz, Ornella Ursini & Giancarlo Angelini. (2016) Surface modification of activated carbon fabric with ozone. Part 3: Thermochemical aspects and electron spin resonance. Fullerenes, Nanotubes and Carbon Nanostructures 24:6, pages 406-413.
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Franco Cataldo, Mihai V. Putz, Ornella Ursini & Giancarlo Angelini. (2016) Surface modification of activated carbon fabric with ozone, part 1: Kinetics and oxidation degree. Fullerenes, Nanotubes and Carbon Nanostructures 24:5, pages 313-323.
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Franco Cataldo, Mihai V. Putz, Ornella Ursini, Giancarlo Angelini, D. Anibal Garcia-Hernandez & Arturo Manchado. (2016) A new route to graphene starting from heavily ozonized fullerenes: Part 3 – an electron spin resonance study. Fullerenes, Nanotubes and Carbon Nanostructures 24:3, pages 195-201.
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Franco Cataldo, Mihai V. Putz, Ornella Ursini, Yasser Hafez & Susana Iglesias-Groth. (2015) On The Action of Ozone on Single-Wall Carbon Nanohorns (SWCNH). Fullerenes, Nanotubes and Carbon Nanostructures 23:12, pages 1095-1102.
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Articles from other publishers (19)

Lucija Pustahija & Wolfgang Kern. (2023) Surface Functionalization of (Pyrolytic) Carbon—An Overview. C 9:2, pages 38.
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Savvina Psaltou, Manassis Mitrakas & Anastasios Zouboulis. (2022) Heterogeneous Catalytic Ozonation: Solution pH and Initial Concentration of Pollutants as Two Important Factors for the Removal of Micropollutants from Water. Separations 9:12, pages 413.
Crossref
Laura C. Matchett, Maya Abou-Ghanem, Kristyna A. R. Stix, Devon T. McGrath & Sarah A. Styler. (2022) Ozone uptake by commercial brake pads and brake pad components: assessing the potential indirect air quality impacts of non-exhaust emissions. Environmental Science: Atmospheres 2:3, pages 539-546.
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Niels R. Ostyn, Sreeprasanth Pulinthanathu Sree, Jin Li, Ji-Yu Feng, Maarten B. J. Roeffaers, Steven De Feyter, Jolien Dendooven, Christophe Detavernier & Johan A. Martens. (2021) Covalent graphite modification by low-temperature photocatalytic oxidation using a titanium dioxide thin film prepared by atomic layer deposition. Catalysis Science & Technology 11:20, pages 6724-6731.
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Elena F. Sheka. (2021) sp2 Carbon Stable Radicals. C 7:2, pages 31.
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Eduardo Humeres, Karen M. de Castro, Nito Angelo Debacher & Regina de F. P. M. Moreira. (2020) Reaction Mechanism of the Reduction of Ozone on Graphite. Langmuir 36:38, pages 11225-11236.
Crossref
O. K. Alekseeva, I. V. Pushkareva, A. S. Pushkarev & V. N. Fateev. (2020) Graphene and Graphene-Like Materials for Hydrogen Energy. Nanotechnologies in Russia 15:3-6, pages 273-300.
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Sam Groveman, Jing Peng, Boris Itin, Ibrahim Diallo, Lawrence M. Pratt, Alexander Greer, Elizabeth J. Biddinger, Steve G. Greenbaum, Charles Michael Drain, Lynn Francesconi & Michele Vittadello. (2017) The role of ozone in the formation and structural evolution of graphene oxide obtained from nanographite. Carbon 122, pages 411-421.
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Andrew A. Turnipseed, Peter C. Andersen, Craig J. Williford, Christine A. Ennis & John W. Birks. (2017) Use of a heated graphite scrubber as a means of reducing interferences in UV-absorbance measurements of atmospheric ozone. Atmospheric Measurement Techniques 10:6, pages 2253-2269.
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Hengheng Xia, Yexin Zhang, Chunlin Chen, Wenlin Wu, Ken Yao & Jian Zhang. (2016) Ozone-Mediated Functionalization of Multi-Walled Carbon Nanotubes and Their Activities for Oxygen Reduction Reaction. Journal of Materials Science & Technology 32:6, pages 533-538.
Crossref
Qian Li, Jing Shang, Jia Liu, Weiwei Xu, Xiang Feng, Rui Li & Tong Zhu. (2015) Physicochemical characteristics, oxidative capacities and cytotoxicities of sulfate-coated, 1,4-NQ-coated and ozone-aged black carbon particles. Atmospheric Research 153, pages 535-542.
Crossref
Yexin Zhang, Chunlin Chen, Lixia Peng, Zhongsen Ma, Yajie Zhang, Hengheng Xia, Aili Yang, Lei Wang, Dang Sheng Su & Jian Zhang. (2015) Carboxyl groups trigger the activity of carbon nanotube catalysts for the oxygen reduction reaction and agar conversion. Nano Research 8:2, pages 502-511.
Crossref
Zhiwei Xu, Mengyao Yue, Lei Chen, Baoming Zhou, Mingjing Shan, Jiarong Niu, Baodong Li & Xiaoming Qian. (2014) A facile preparation of edge etching, porous and highly reactive graphene nanosheets via ozone treatment at a moderate temperature. Chemical Engineering Journal 240, pages 187-194.
Crossref
Qian Li, Jing Shang & Tong Zhu. (2013) Physicochemical characteristics and toxic effects of ozone-oxidized black carbon particles. Atmospheric Environment 81, pages 68-75.
Crossref
Robert Schlögl. 2013. 103 185 .
M.J. Webb, P. Palmgren, P. Pal, O. Karis & H. Grennberg. (2011) A simple method to produce almost perfect graphene on highly oriented pyrolytic graphite. Carbon 49:10, pages 3242-3249.
Crossref
J. Rivera-Utrilla, M. Sánchez-Polo, V. Gómez-Serrano, P.M. Álvarez, M.C.M. Alvim-Ferraz & J.M. Dias. (2011) Activated carbon modifications to enhance its water treatment applications. An overview. Journal of Hazardous Materials 187:1-3, pages 1-23.
Crossref
S. D. Razumovskii & D. M. Lisitsyn. (2008) Reactions of ozone with double bonds in polymer and biosystem chemistry. Polymer Science Series A 50:12, pages 1187-1197.
Crossref
Robert Schlögl. 2008. Handbook of Heterogeneous Catalysis. Handbook of Heterogeneous Catalysis 357 427 .

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