Porous polymer derived ceramics decorated with in-situ grown nanowires

Ceramic Transactions

Volumn 213, Issue , 2010, Pages 95-103

  Vakifahmetoglu, Cekdar ^a   Colombo, Paolo ^a,b,c  

^a UNIVERSITY OF PADOVA   (Italy)

^b PENNSYLVANIA STATE UNIVERSITY   (United States)

^c AMERICAN CERAMIC SOCIETY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CATALYSTS; CERAMIC FOAMS; CHLORINE COMPOUNDS; COBALT COMPOUNDS; GLASS; NANOWIRES; POLYMERS; PYROLYSIS; SILICON COMPOUNDS;

1-D NANOSTRUCTURES; CATALYST SOURCE; COBALT CHLORIDES; POROUS POLYMERS; PRECERAMIC POLYMER; PYROLYSIS TEMPERATURE; SITU GROWN; VARYING PARAMETERS;

NITROGEN COMPOUNDS;

EID: 77955801599     PISSN: 10421122     EISSN: None     Source Type: Book Series    
DOI: 10.1002/9780470880630.ch12     Document Type: Conference Paper

References (44)

1. F. Schüth, K. S. W. Sing, and J. Weitkamp, "Handbook of porous solids," Wiley-VCH Verlag GmbH Weinheim, Germany. (2002).
2. M. Twigg and J. T. Richardson, "Fundamentals and Applications of Structured Ceramic Foam Catalysts," Industrial & Engineering Chemistry Research, 46 4166-4177.2007.
3. Y. Xia, P. Yang, Y. Sun, Y. Wu, B. Mayers, B. Gates, Y. Yin, F. Kim, and H. Yan, "One-Dimensional Nanostructures: Synthesis, Characterization, and Applications," Advanced Materials, 15[5] 353-389.2003.
4. J. Zheng, M.J. Kramer, and M. Akine, "In Situ Growth of SiC Whisker in Pyrolyzed Monolithic Mixture of AHPCS and SiC," Journal of the American Ceramic Society, 83[12] 2961-2966.2000.
5. H. Wang, X.-D. Li, T-S. Kim, and D.-P. Kim, "Inorganic polymer-derived tubular SiC arrays from sacrificial alumina templates," Applied Physics Letters, 86[17] 173104-173103.2008.
6. C. Wan, G. Guo, and Q. Zhang, "SiOC ceramic nanotubes of ultrahigh surface area," Materials Letters, 62[17-18] 2776-2778.2008.
7. H.-M. Yen, S. Jou, and C.-J. Chu, "Si-O-C nanotubes from pyrolyzing polycarbosilane in a mesoporous template," Materials Science and Engineering: B, 122[3] 240-245.2005. (Pubitemid 41230821)
8. K. F. Cai, Q. Lei, and L. C. Zhang, "Ultra long SiC/SiO2 core-shell nanocables from organic precursor," Journal of Nanoscience and Nanotechnology, 5[11] 1925-1928.2005.
9. F. Li, G. Wen, and L. Song, "Growth of nanowires from annealing SiBONC nanopowders," Journal of Crystal Growth, 290[2] 466-472.2006.
10. Y. Xu, A. Zangvil, J. Lipowitz, J. A. Rabe, and G. A. Zank, "Microstructure and Microchemistry of Polymer-Derived Crystalline SiC Fibers," Journal of the American Ceramic Society, 76[12] 3034-3040.1993.
11. 2 micro-composite materials from preceramic polymers," Materials Chemistry and Physics, 80[2] 565-572.2003.
12. D. D. Jayaseelan, W. E. Lee, D. Amutharani, S. Zhang, K. Yoshida, and H. Kita, "In Situ Formation of Silicon Carbide Nanofibers on Cordierite Substrates," Journal of the American Ceramic Society, 90[5] 1603-1606.2007.
13. M. Scheffler, P. Greil, A. Berger, E. Pippel, and J. Woltersdorf, "Nickel-catalyzed in situ formation of carbon nanotubes and turbostratic carbon in polymer-derived ceramics," Materials Chemistry and Physics, 84[1] 131-139.2004.
14. S. Otoishi and Y. Tange, "Effect of a Catalyst on the Formation of SiC Whiskers from Polycarbosilane. Nickel Ferrite as a Catalyst," Bulletin of the Chemical Society of Japan, 72[7] 1607-1613.1999.
15. W. Yang, H. Miao, Z. Xie, L. Zhang, and L. An, "Synthesis of silicon carbide nanorods by catalyst-assisted pyrolysis of polymeric precursor," Chemical Physics Letters, 383[5-6] 441-444.2004.
16. A. Berger, E. Pippel, J. Woltersdorf, M. Scheffler, P. Cromme, and P. Greil, "Nanoprocesses in polymer-derived Si-O-C ceramics: Electronmicroscopic observations and reaction kinetics," physica status solidi (a), 202[12] 2277-2286.2005.
17. J. Haberecht, F. Krumeich, M. Stalder, and R. Nesper, "Carbon nanostructures on high-temperature ceramics - a novel composite material and its functionalization," Catalysis Today, 102-103 40-44.2005.
18. W. Yang, Z. Xie, J. Li, H. Miao, L. Zhang, and L. An, "Ultra-Long Single-Crystalline α-Si3N4 Nanowires: Derived from a Polymeric Precursor," Journal of the American Ceramic Society, 88[6] 1647-1650.2005.
19. K. F. Cai, L. Y. Huang, A. X. Zhang, J. L. Yin, and H. Liu, "Ultra Long SiCN Nanowires and SiCN/SiO2 Nanocables: Synthesis, Characterization, and Electrical Property," Journal of Nanoscience and Nanotechnology, 8 6338-6343.2008.
20. W. Yang, H. Wang, S. Liu, Z. Xie, and L. An, "Controlled Al-Doped Single-Crystalline Silicon Nitride Nanowires Synthesized via Pyrolysis of Polymer Precursors," The Journal of Physical Chemistry B, 111[16] 4156-4160.2007.
21. W. Yang, F. Gao, H. Wang, X. Zheng, Z. Xie, and L. An, "Synthesis of Ceramic Nanocomposite Powders with in situ Formation of Nanowires/Nanobelts, " Journal of the American Ceramic Society, 91[4] 1312-1315.2008.
22. B.-H. Yoon, C.-S. Park, H.-E. Kim, and Y.-H. Koh, "In Situ Synthesis of Porous Silicon Carbide (SiC) Ceramics Decorated with SiC Nanowires," Journal of the American Ceramic Society, 90[12] 3759-3766.2007.
23. C. Vakifahmetoglu, E. Pippel, J. Woltersdorf, and P. Colombo, "Growth of 1D-Nanostructures in Porous Polymer Derived Ceramics by Catalyst-Assisted-Pyrolysis. Part I: Iron Catalyst," submitted to Journal of the American Ceramic Society.2009.
24. C. Vakifahmetoglu, I. Menapace, A. Hirsch, L. Biasetto, R. Hauser, R. Riedel, and P. Colombo, "Highly Porous Macro- and Micro-Cellular Ceramics from a Polysilazane Precursor," Accepted for publication in Ceramics International.2009.
25. ASTM D 3576, "Standard test method for cell size of rigid cellular plastics." In Annual Book of ASTM Standards, Vol. 08.02. West Conshohocken, PA., 1997.
26. T. Takahashi and P. Colombo, "SiOC Ceramic Foams through Melt Foaming of a Methylsilicone Preceramic Polymer," Journal of Porous Materials, 10 113-121.2003.
27. C. Vakifahmetoglu and P. Colombo, "A Direct Method for the Fabrication of Macro-Porous SiOC Ceramics from Preceramic Polymers," Advanced Engineering Materials, 10[3] 256-259.2008.
28. M. Scheffler, T. Gambaryan-Rolsman, T. Takahashi, J. Kaschta, H. Muenstedt, P. Buhler, and P. Greil, "Pyrolytic decomposition of preceramic organo polysiloxanes," Innovative processing and synthesis of ceramics, Glasses Compos IV: Ceramic Transactions, 115 239-250.2000.
29. C. G. Pantano, A. K. Singh, and H. Zhang, "Silicon Oxycarbide Glasses," Journal of Sol-Gel Science and Technology, 14[1] 7-25.1999.
30. G. D. Soraru, S. Modena, E. Guadagnino, P. Colombo, J. Egan, and C. Pantano, "Chemical Durability of Silicon Oxycarbide Glasses," Journal of the American Ceramic Society, 85[6] 1529-1536.2002.
31. D. Walter and I. W. Karyasa, "Synthesis and Characterization of Cobalt Monosilicide (CoSi) with CsCI Structure Stabilized by a beta-SiC Matrix," Zeitschrift für anorganische und allgemeine Chemie, 631[6-7] 1285-1288.2005.
32. H. J. Whitlow, Y. Zhang, C. M. Wang, D. E. McCready, T. Zhang, and Y. Wu, "Formation of cobalt silicide from filter metal vacuum arc deposited films," Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 247[2] 271-278.2006. (Pubitemid 44255618)
33. M. G. Segatelli, A. T. N. Pires, and I. V. P. Yoshida, "Synthesis and structural characterization of carbon-rich SiCxOy derived from a Ni-containing hybrid polymer," Journal of the European Ceramic Society, 28[11] 2247-2257.2008.
34. P. Colombo, M. O. Abdirashid, M. Guglielmi, L. Mancinelli Degli Esposti, and A. Luca, "Preparation of Ceramic composites by active-filler- controlled-polymer-pyrolysis," Materials Research Society Symposia Proceedings, 346 403-408.1994.
35. J. Zeschky, T. Höfner, C. Arnold, R. Weißmann, D. Bahloul-Hourlier, M. Scheffler, and P. Greil, "Polysilsesquioxane derived ceramic foams with gradient porosity," Acta Materialia, 53[4] 927-937.2005.
36. S. Quinn, "Chemical blowing agents: providing production, economic and physical improvements to a wide range of polymers," Plastics, Additives and Compounding, 3 16-21.2001.
37. Q. Wei, E. Pippel, J. Woltersdorf, M. Scheffler, and P. Greil, "Interfacial SiC formation in polysiloxane-derived Si-O-C ceramics," Materials Chemistry and Physics, 73[2-3] 281-289.2002.
38. J. Zheng, X. Song, X Li, and Y. Pu, "Large-Scale Production of Amorphous Silicon Oxynitride Nanowires by Nickel-Catalyzed Transformation of Silicon Wafers in NH3 Plasma," The Journal of Physical Chemistry C, 112[1] 27-34.2008.
39. G. Yang, R. Wu, M. Gao, J. Chen, and Y. Pan, "SiC crystal growth from transition metal silicide fluxes," Crystal Research and Technology, 42[5] 445-450.2007. (Pubitemid 47183848)
40. C. Vakifahmetoglu, S. Carturan, E. Pippel, J. Woltersdorf, and P. Colombo, "Growth of 1D-Nanostructures in Forous Polymer Derived Ceramics by Catalyst-Assisted-Pyrolysis. Part II: Cobalt Catalyst," manuscript in preparation.2009.
41. 2O," Journal of the American Ceramic Society, 77[10] 2699-2702.1994.
42. G. Chollon, U. Vogt, and K. Berroth, "Processing and characterization of an amorphous Si-N-(O) fibre," Journal of Materials Science, 33[6] 1529-1540.1998.
43. M. E. Washburn, "Silicon oxynitride refractories," Amer. Ceram. Soc. Bull., 46 667-671.1967.
44. G.-E. Yu, J. Parrick, M. Edirisinghe, D. Finch, and B. Ralph, "Synthesis of silicon oxynitride from a polymeric precursor" Journal of Materials Science, 28[15] 4250-4254.1993.