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Philosophical Magazine B Volume 73, 1996 - Issue 6
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Original Articles

Mixed-valent oxide-catalytic carbonization for synthesis of monodispersed nano sized carbon spheres

Z. C. Kang School of Material Science and Engineering, Georgia Institute of Technology, Atlanta, GA, 30332-0245, USA
&
Z. L. Wang School of Material Science and Engineering, Georgia Institute of Technology, Atlanta, GA, 30332-0245, USA
Pages 905-929 | Received 22 Jan 1996, Accepted 26 Jan 1996, Published online: 27 Sep 2006

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S.D. Mhlanga, N.J. Coville, S.E. Iyuke, A.S. Afolabi, A.S. Abdulkareem & N. Kunjuzwa. (2010) Controlled syntheses of carbon spheres in a swirled floating catalytic chemical vapour deposition vertical reactor. Journal of Experimental Nanoscience 5:1, pages 40-51.
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Jae-Hyuk Choi, Dae-Yeong Kim, Won-Ju Lee & Jun Kang. (2019) Conversion of Black Carbon Emitted from Diesel-Powered Merchant Ships to Novel Conductive Carbon Black as Anodic Material for Lithium Ion Batteries. Nanomaterials 9:9, pages 1280.
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Arun Kumar, Yulia Kostikov, Beate Orberger, Gilbert Daniel Nessim & Gino Mariotto. (2018) Natural Laterite as a Catalyst Source for the Growth of Carbon Nanotubes and Nanospheres. ACS Applied Nano Materials 1:11, pages 6046-6054.
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Sharon Olivera, Krishna Venkatesh, Narendra Reddy, Bidarur K. Jayanna, Inamuddin, Abdullah M. Asiri, Sami Rtimi & Handanahally Basavarajaiah Muralidhara. (2018) Oxygen enriched network-type carbon spheres for multipurpose water purification applications. Environmental Technology & Innovation 12, pages 160-171.
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Koangyong Hyun & Nagahiro Saito. (2017) The solution plasma process for heteroatom-carbon nanosheets: the role of precursors. Scientific Reports 7:1.
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Bridget K. Mutuma, Boitumelo J. Matsoso, Kamalakannan Ranganathan, Jonathan M. Keartland, Daniel Wamwangi & Neil J. Coville. (2017) Generation of radical species in CVD grown pristine and N-doped solid carbon spheres using H 2 and Ar as carrier gases . RSC Advances 7:34, pages 21187-21195.
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You Zhang, Wei Yang, Rui-ying Luo & Hai-dong Shang. (2016) Preparation of carbon nanospheres by non-catalytic chemical vapor deposition and their formation mechanism. New Carbon Materials 31:5, pages 467-474.
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Trevor Mwenya, Huiyang Fan, Han Dai & Meicheng Li. (2016) The Detailed Evolution of Carbon Spheres by Hydrothermal Method. International Journal of Photoenergy 2016, pages 1-5.
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Chanmi Lee, Hunsoo Jeon, Minah Park, Chanbin Lee, Min Yang, Sam Nyung Yi, Hyung Soo Ahn, Suck-Whan Kim, Young Moon Yu, Keesam Shin, Jong Seong Bae, Hyo Suk Lee & Nobuhiko Sawaki. (2015) Characterization of carbon microspheres grown by HVPE. Journal of the Korean Crystal Growth and Crystal Technology 25:2, pages 62-67.
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W.P. Wright, V.D. Marsicano, J.M. Keartland, R.M. Erasmus, S.M.A. Dube & N.J. Coville. (2014) The electrical transport properties of nitrogen doped carbon microspheres. Materials Chemistry and Physics 147:3, pages 908-914.
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Muhammad Ejaz, Bhanukiran Sunkara, Lakhinder Kamboj, Jibao He, Vijay T. John, Noshir S. Pesika & Scott M. Grayson. (2013) Facile one-pot method of initiator fixation for surface-initiated atom transfer radical polymerization on carbon hard spheres. Journal of Polymer Science Part A: Polymer Chemistry 51:15, pages 3314-3322.
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Dong Ju Fu, Xie Rong Zeng, Wei Li Zhang, Jian Jun Chen, Dong Shuang Li & Man Lin Tan. (2013) Synthesis of Carbon Nanospheres with Small Diameterby Microwave Pyrolysis of Methane Directly. Materials Science Forum 745-746, pages 371-375.
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Jun Kang, Oi Lun Li & Nagahiro Saito. (2013) A simple synthesis method for nano-metal catalyst supported on mesoporous carbon: the solution plasma process. Nanoscale 5:15, pages 6874.
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Ying Cui, Xiaoyong Lai, Li Li, Zhudong Hu, Shuo Wang, Jonathan E. Halpert, Ranbo Yu & Dan Wang. (2012) Water-Soluble Monodispersed Lanthanide Oxide Submicrospheres: PVP-Assisted Hydrothermal Synthesis, Size-Control and Luminescence Properties. ChemPhysChem 13:10, pages 2610-2614.
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Min Li, Wei Li & Shouxin Liu. (2011) Hydrothermal synthesis, characterization, and KOH activation of carbon spheres from glucose. Carbohydrate Research 346:8, pages 999-1004.
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Amit A. Deshmukh, Sabelo D. Mhlanga & Neil J. Coville. (2010) Carbon spheres. Materials Science and Engineering: R: Reports 70:1-2, pages 1-28.
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Michio Inagaki, Chong-Rae Park, Jan M. Skowronski & Antoni W. Morawski. (2008) Glass-Like Carbon Spheres — Activation, Porosity and Application Possibilities. Adsorption Science & Technology 26:10, pages 735-787.
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G M Yang, Q Xu, H W Tian, X Wang & W T Zheng. (2008) Amorphous hollow carbon spheres synthesized using radio frequency plasma-enhanced chemical vapour deposition. Journal of Physics D: Applied Physics 41:19, pages 195504.
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Bin Zhang, Shuo Bai, Hui-Ming Cheng & Qing-Kui Cai. (2011) Graphitization-induced microstructural changes in tetrahydrofuran-derived pyrolytic carbon spheres. Journal of Materials Research 21:09, pages 2198-2203.
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Yi Zheng Jin, Chao Gao, Wen Kuang Hsu, Yanqiu Zhu, Andrzej Huczko, Michal Bystrzejewski, Martin Roe, Chi Young Lee, Steve Acquah, Harold Kroto & David R.M. Walton. (2005) Large-scale synthesis and characterization of carbon spheres prepared by direct pyrolysis of hydrocarbons. Carbon 43:9, pages 1944-1953.
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Yi Zheng Jin, Chao Gao, Harold W. Kroto & Toru Maekawa. (2005) Polymer‐Grafted Carbon Spheres by Surface‐Initiated Atom Transfer Radical Polymerization. Macromolecular Rapid Communications 26:14, pages 1133-1139.
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Andreas K. Schaper, Fritz Phillipp & Haoqing Hou. (2011) Melting Behavior of Copper Nanocrystals Encapsulated in Onion-like Carbon Cages. Journal of Materials Research 20:07, pages 1844-1850.
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S. Scholz, P. J. Leech, B. C. Englert, W. Sommer, M. Weck & U. H. F. Bunz. (2005) Cobalt–Carbon Spheres: Pyrolysis of Dicobalthexacarbonyl‐Functionalized Poly( p‐ phenyleneethynylene)s . Advanced Materials 17:8, pages 1052-1055.
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Jian-Ying Miao, Dennis W Hwang, Kuppala V Narasimhulu, Ping-I Lin, Yit-Tsong Chen, Sheng-Hsien Lin & Lian-Pin Hwang. (2004) Synthesis and properties of carbon nanospheres grown by CVD using Kaolin supported transition metal catalysts. Carbon 42:4, pages 813-822.
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A.K. Schaper, H. Hou, A. Greiner, R. Schneider & F. Phillipp. (2004) Copper nanoparticles encapsulated in multi-shell carbon cages. Applied Physics A 78:1, pages 73-77.
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. 2002. Handbook of Nanophase and Nanostructured Materials. Handbook of Nanophase and Nanostructured Materials 372 441 .
Ph. Serp, R. Feurer, Ph. Kalck, Y. Kihn, J.L. Faria & J.L. Figueiredo. (2001) A chemical vapour deposition process for the production of carbon nanospheres. Carbon 39:4, pages 621-626.
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X.H Chen, F.M Deng, J.X Wang, H.S Yang, G.T Wu, X.B Zhang, J.C Peng & W.Z Li. (2001) New method of carbon onion growth by radio-frequency plasma-enhanced chemical vapor deposition. Chemical Physics Letters 336:3-4, pages 201-204.
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M. H. Kuang, Z. L. Wang, X. D. Bai, J. D. Guo & E. G. Wang. (2000) Catalytically active nickel {110} surfaces in growth of carbon tubular structures. Applied Physics Letters 76:10, pages 1255-1257.
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Ruiping Gao, Zhong L. Wang & Shoushan Fan. (2000) Kinetically Controlled Growth of Helical and Zigzag Shapes of Carbon Nanotubes. The Journal of Physical Chemistry B 104:6, pages 1227-1234.
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Z.L Wang & J.S Yin. (1998) Graphitic hollow carbon calabashes. Chemical Physics Letters 289:1-2, pages 189-192.
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Z.C. Kang & Z.L. Wang. (1997) Chemical activities of graphitic carbon spheres. Journal of Molecular Catalysis A: Chemical 118:2, pages 215-222.
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Z.L. Wang & Z.C. Kang. (1997) Graphitic structure and surface chemical activity of nanosize carbon spheres. Carbon 35:3, pages 419-426.
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Z. C. Kang & Z. L. Wang. (2011) Synthesis of Carbon Spheres/Tubes Using a Mixed-Valent Oxide-Catalytic Carbonization Process. MRS Proceedings 454.
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Z. L. Wang & Z. C. Kang. (1996) Pairing of Pentagonal and Heptagonal Carbon Rings in the Growth of Nanosize Carbon Spheres Synthesized by a Mixed-Valent Oxide-Catalytic Carbonization Process. The Journal of Physical Chemistry 100:45, pages 17725-17731.
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