Journal of the Korean Ceramic Society (한국세라믹학회지)

The Korean Ceramic Society (한국세라믹학회)
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Preparation of Porous Carbon Support Using Carbon Nanofiber

나노탄소섬유를 이용한 다공성 탄소담체의 제조와 반응 특성

  • 김명수 (명지대학교 세라믹 화학공학부) ;
  • 정상원 (명지대학교 세라믹 화학공학부) ;
  • 우원준 (명지대학교 세라믹 화학공학) ;
  • 임연수 (명지대학교 세라믹 화학공학부)
  • Published : 1999.05.01
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Abstract

The high-quality carbon nanofibers were prepared by chemical vapor deposition of gas mixtures of CO-H2 and C3H8-H2 over Fe-Cu and Ni-Cu bimetallic catalysts. The yield and structure of carbon nanofiber produced were altered by the change of catalyst composition and reaction temperature. The high yields were obtained around 500$^{\circ}C$ with e-Cu catalyst and around 700-750$^{\circ}C$ with Ni-Cu catalyst and the relatively higher yields were obtained with the bimetallic catalyst containing 50-90% of Ni and Fe respectively in comparison with the pure metals. The carbon nanofibers produced over the Fe-Cu catalyst at around 500$^{\circ}C$ with the maximum yields had the highest surface ares of 160-200 m2/g around 650$^{\circ}C$ which was slightly lower than the temperature for maximum yields. In order to examine the characteristics of carbon nanofibers as catalyst support Ni and Co metals were supporte on the carbon nanofibers and CO hydrogenation reaction was performed with the catalysts. The particle size distribution of Ni and Co supported over the carbon nanofibers were 6-15 nm and the CO hydrogenation reaction rate with the carbon-nanofiber supported catalysts was much higher than that over the other supports.

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References

  1. Workshop sponsered by the American Carbon Society Interfacial Phenomena at Carbon Surface J. W. Geus
  2. J. Crystal Growth v.32 Filamentous Growth of Carbon through Benzene Decomposition A. Oberin;M. Endo;T. Koyama
  3. Ph.D. Thesis Influence of Selected Metal Catalysts on Carbon Filament Formation M. S. Kim
  4. J. Catalysis v.134 The Role of Interficial Phenomena in the Structure of Carbon Deposits M. S. Kim;N. M. Rodriguez;R. T. K. Baker
  5. Master Thesis Preparation, Characterization and Application of Catalytically Grown Carbon Nanofiber D. Y. Kim
  6. J. Catalysis v.14 Synthesis Gas Conversion on Carbon Supported Iron Catalysts and the Nature of Deactivation A. P. B. Sommen;F. Stoop;K. Van der Wiele
  7. J. Catalysis v.26 Nucleation and Growth of Carbon Deposits from the Nickel Catalyzed Decomposition of Ace-thylene R. T. K. Baker;M. A. Barber;P. S. Harris;F. S. Feates;R. J. Waite
  8. ACS Symposium Series v.202 Coke Formation on Metal Surfaces R. T. K. Baker;D. J. C. Yates
  9. J. Catalysis v.140 Deactivation of Copper-Nickle Catalysts due to Changes in Surface Composition N. M. Rodriguez;M. S. Kim;R. T. K. Baker
  10. J. Catalysis v.33 Filamentous Carbon Growth on Nickel-Iron Surfaces Y. Nishiyama;Y. Tamai
  11. Carbon v.35 Mesoporous Activated Carbon Filaments W. Lu;D. D. L. Chung
  12. Powder Surface Area and Porosity(3rd ed.) S. Lowell;J. E. Shields
  13. Materias Research Society Symposium Series v.368 Carbon Nanofibers as a Catalyst Support M. S. Kim;N. M. Rodriguez;R. T. K. Baker
  14. Langmuir v.11 no.10 Catalytic Engineering of Carbon Nanostructure N. M. Rodriguez;A. Chambers;R. T. K. Baker
  15. Catalysis an Introduction(2nd ed.) H. J. Jeon
  16. J. Catalysis v.14 Hydrogenolysis of n-butane and Hydrogenation of Carbon Monoxide on Ni and Co Catalysts Supported on Saran Carbons I. Fernandez-Morales;A. Guerrero-Ruiz;F. J. Lopez-Garzon;I. Rodriguez-Ramos;C. Moreno-Castilla
  17. J. Catalysis v.21 Hydrogenation of CO on Carbon-Supported Iron Catalysts Pre-pared from Iron Penta-Carbonyl F. Rodriguez-Reinoso;I. Rodriguez-Ramos;A. Guerrero-Ruiz;J. D. Lopez-Gonzalez
  18. J. Phys. Chem. v.B102 Catalytic Behavior of Graphite Nanofiber Supported Nickel Particles. 1. Comparison with Other Support Media A. Chambers;T. Nomes;N. M. Rodriguez;R. T. K. Baker
  19. Carbon v.23 no.5 Doped Carbon Black Catalyst Supports L. N. Mulay;A. V. Prasad Rao;P.L. Walker, Jr.;K. J. Yoon