Capella, E.T., and Filho, J.M., Hydriding of Zirconium Sponge for Powder Production, Congr. Anu.-Assoc. Bras. Metal. Mater., 48th(vol. 2), p. 117 (1993). |
Carberry, J.J., "Chemical and Catalytic Reaction Engineering," McGraw-Hill Book Co., 1976, chapter 8. |
Devgun, J., "Developing Innovative Environmental Technologies for DoE Needs," paper EI-330, proceeding of the 30th IECEC, Lake Buena Vista, FL, vol. 2, p. 49, Jul. 30-Aug. 4, 1995. |
El-Shall, M.S., Slack, W., Hanley, D., and Kane, D., Characterization of Nanoscale Particles Produced by Laser Vaporization/Condensation in a Diffusion Cloud Chamber, Mat. Res. Soc. Symp., 351, p. 369, 1994. |
Gruber, W., "Ultrafine Metal Oxides Dismantle Chlorinated Organics," Environ. Eng. World, p. 36, Jul.-Aug. 1995. |
Hess, K., Morsbach, B., Drews, R., Buechele, W., Schachner, H., "Metal oxide catalyst for oxidative decomposition of organics in flue gas," German patent 4116364 (1993). Abstract. |
Manchester, F.D., and Khatamian, D., "Mechanisms for Activation of Intermetallic Hydrogen Absorbers," Hydrogen Storage Materials in Materials Science Forum (Trans Tech Publications, Switzerland), vol. 31, p. 261, 1988. |
Nakamura, R., et al., "Effect of the Addition of Various Alkaline Metal Hydroxides to the Molybdenum (VI) Oxide-Aluminum Oxide catalyst on the Dispropotionation of Olefins," Nippon Kagaku Kaishi, 7, pp. 1138-1142, 1975. Abstract. |
Okuda, H., Sintering of Titanium Hydride Powder Prepared with Ball Mill, Kenkyu Hokoku, 58, p. 131, 1987. Abstract. |
Sasaki, Y., and Amano, M., Preparation and Comminution of Hydrogenated Niobium, Nippon Kinzoku Gakkaishi, 35(1), p. 77, 1971. Abstract. |
Uenishi, N., and Takeda, Y., "Manufacture of sintered titanium alloy parts at low cost," Japanese patent 63089636 (1988). Abstract. |
Utamapanya, S., Klabunde, K.J., and Schlup, J.R., Nanoscale Metal Oxide Particles/Clusters as Chemical Reagents. Synthesis and Properties of Ultrahigh Surface Area Magnesium Hydroxide and Magnesium Oxide, Chem. Mater., 3(1), p. 175, 1991. |
Wilcoxon, J., and Martino, A., "Tiny chunks of catalysts," in Sandia Technology: Engineering and Science Accomplishments, Sandia National Laboratories, p. 38, Feb. 1995. |
Li, Y-X., and Klabunde, K.J., "Nanoscale Metal Oxide Particles as Chemical Reagents. Destructive Adsorption of a Chemical Agent Simulant, Dimethyl Methylphosphonate on Heat-Treated Magnesium Oxide," Langmuir, 7(7), pp. 1388-1393, 1991. |
Li, Y-X., Koper, O., Atteya, M., and Klabunde, K.J., "Adsorption and Decomposition of Organophosphorous Compounds on nanoscale Metal Oxide Particles. In Situ GC-MS Studies of Pulsed Microreactions over Magnesium Oxide," Chem. Mater., 4(2), pp. 323-330, 1992. |
Itoh, H., Utamapanya, S., Stark, J.V., Klabunde, K.J., and Schlup, J.R., "Nanoscale Metal Oxide Particles as Chemical Reagents. Intrinsic Effects of Particles Size on Hydroxyl Content and on Reactivity and Acid/Base Properties of Ultrafine Magnesium Oxide", Chem. Mater., 5(1), p. 71, 1993. |
Klabunde, K.J., Activated Metal Oxide Surfaces as Highly Reactive Environments, Final Report contract DAAL03-87-K-0130, U.S. Army Research Office, RTP, NC, 1990. (DTIC Article AD-A227-990). |
Koper, O., Yong, X.L., and Klabunde, K.J., Destructive Adsorption of Chlorinated Hydrocarbons on Ultrafine (Nanoscale) Particles of Calcium Oxide, Chem. Mater., 5(4), p. 500, 1993. |