Processing salt-encapsulated tantalum nanoparticles for high purity, ultra high surface area applications

Journal of Nanoparticle Research

Volumn 8, Issue 1, 2006, Pages 11-22

  Barr, J L ^a,b   Axelbaum, R L ^a   Macias, M E ^a,c  

^a WASHINGTON UNIVERSITY   (United States)

^b PACIFIC NORTHWEST NATIONAL LABORATORY   (United States)

^c MSC SOFTWARE CORPORATION   (United States)

Author keywords

Aerosols; Combustion synthesis; Encapsulation; Flame reactor; Nanopowders

Indexed keywords

AEROSOLS; CERAMIC MATERIALS; COMBUSTION; CONTAMINATION; ENCAPSULATION; TANTALUM;

COMBUSTION SYNTHESIS; ENVIRONMENTAL CONTAMINATION; FLAME REACTOR; NANOPOWDERS;

NANOSTRUCTURED MATERIALS;

EID: 33646838800     PISSN: 13880764     EISSN: None     Source Type: Journal    
DOI: 10.1007/s11051-005-8336-2     Document Type: Article

References (20)

1. Andrievski R.A., 1994. Compaction and sintering of ultrafine powders, Int. J. Powder Metall. 30(1), 59-66.
2. Axelbaum R.L., 2000. Synthesis of stable metal and non-oxide ceramic nanoparticles in sodium/halide flames, Powder Metall. 43(4), 323-325.
3. Axelbaum, R.L., DuFaux, D.P. & Rosen, L.J., 1995. Method and Apparatus for Producing High Purity and Unagglomerated Submicron Particles. U.S. Patent No. 5498446.
4. Axelbaum R.L., C.R. Lottes, J.I. Huertas & L.J. Rosen, 1996. Gas-phase combustion synthesis of aluminum nitride powders, Proc. Combust. Inst. 26, 1891-1897.
5. Cho H., M.A. Waters & R. Hogg, 1996. Investigation of the grind limit in stirred-media milling, Int. J. Mineral Proc. 44-45, 607-615.
6. Cox, D.M., 1999. WTEC Panel Report on Nanostructure Science and Technology: R & D Status and Trends in Nanoparticles, Nanostructured Materials, and Nanodevices: Final Report: December 1998. 49-66.
7. DuFaux D.P. & R.L. Axelbaum, 1995. Nanoscale unagglomerated nonoxide particles from a sodium coflow flame, Combust. Flame 100(3) 350-358.
8. Gill J., 1996. Basic Tantalum Capacitor Technology. AVX Technical Information Articles. England: AVX Corporation.
9. Groat E.A. & T.J. Mrox, 1994. Aqueous slip casting of stabilized AIN powders, Am. Ceramic Soc. Bull. 73(11), 75-78.
10. Groza J.R. & R.J. Dowding, 1996. Nanoparticulate materials densification, Nanostruct. Mater. 7(7), 749-768.
11. Haber J.A. & W.E. Buhro, 1998. Kinetic instability of nanocrystalline aluminum prepared by chemical synthesis; Facile room-temperature grain growth, J. Am. Chem. Soc. 120(42), 10847-10855.
12. Hirsch P.B., A. Howie, R.B. Nicholson, D.W. Pashlcy & M.J. Whelan, 1965. Electron Microscopy of Thin Crystals. London: Butterworths.
13. Jena P., S.N. Khanna & B.K. Rao, 1996. Stability and electronic structure of cluster assembled materials, Mater. Sci. Forum 232, 1-25.
14. Kaufmann D.W., 1960. Sodium Chloride, The Production and Properties of Salt and Brine. New York: Reinhold Publishing Corp.
15. Morris D.G. & M.A. Morris, 1997. Hardness, strength, ductility and toughness of nanocrystalline materials, Mater. Sci. Forum 235-238, 861-872.
16. Moser K.D., 1999. The manufacture and fabrication of tantalum, J. Minerals Metals Mater. Soc. 51(4), 29-31.
17. Shriver D.F. & M.A. Drezdzon 1986. The Manipulation of Air-Sensitive Compounds, JohnWiley & SonsNew York.
18. Suryanarayana, C. & Norton, M.G., 1998. X-Ray Diffraction: A Practical Approach. Plenum Publishing Corporation, pp. 207-221.
19. Weissmuller, J., 1996. Nanocrystalline Materials, an Overview. The Minerals Metals, and Materials Society, pp. 3-19.
20. Zhang H., R.L. Penn, R.J. Hamers & J.F. Banrield, 1999. Enhanced adsorption of molecules on surfaces of nanocrystalline particles, J. Phys. Chem. B 103(22), 4656-4662.