2. Ahlafi, H., D. Bianchi, and C.O. Bennet, "Changes of the Metallic Surface of Fe/AlO3 During Exposure to CO/He and CO/H2," Applied Catalysis, 66, pp 99-110 (1990).
3. Anderson, J.R., K. Foger, and R.J. Breakspere, "Adsorption and Temperature-Programmed Desorption of Hydrogen with Dispersed Platinum and Platinum-Gold Catalysts," Journal of Catalysis, 57, pp 458-475 (1979).
4. Arakawa, T., K-l. Takada, Y. Tsunemine, and J. Shiokawa, “Temperature-Programmed Desorption of CO from Reduced Perovskrte Oxides LnCoO3 x(Ln=La, Sm),” Material Research Bulletin, 24, pp 395-402 (1989).
5. Bailey, K.M., T.K. Campbell, and J.L. Falconer, "Potassium Promotion of Ni/Al2O3 Catalysts," Applied Catalysis, 54, pp 159-175 (1989).
6. Baker, J.R., R.L. McCormick, and H.W. Haynes, Jr., "Effect of Sodium Impregnation on Catalyst Performance when Hydrotreating a Coal-Derived Liquid,"Industrial Engineering Chemical Research, 29, pp 1895-1901 (1987).
7. Beriowrtz, P.J. and D.W. Goodman, "Chemisorption of Ultrathin Pd Layers on W(110) and W(100): Adsorption of H2 and CO," Lanomuir. 4, (1988).
8. Bemal, S., F.J. Botana, R. Garcia, Z. Kang, M.L Lopex, M. Pan, F. Ramirez,and J.M. Rodriguez-Izquierdo, "Characterization of Rare Earth Oxide Supported Metal Catalysts. Study of Some Ceria Supported Rhodium Phases," Catalysis Today, 2, (1988).
9. Bertucco, A. and C.O. Bennett, "Characterization of a Silica-Supported Rhodium Catalyst via Hydrogen Chemisorption, Temperature-Programmed Desorption and Isotopic Exchange Measurements," Applied Catalysis, 35, pp 329-349 (1987).
10. Bhatia, S., J. Beltramini, and D.D. Do, Temperature-Programmed Analysis and Its Applications in Catalytic Systems," Catalysis Today. 7, pp 309-438 (1990).
11. Bowker, M. and D. Halstead, "Adsorption Studies on Catalysts. II. Application to Rapid Adsorbers - Oxygen on Europlatinum 1," Applied Surface Science, 44, pp 1-6 (1990).
12. Cao, R., W.X. Pan and G.L. Griffin, "Direct Synthesis of Higher Alcohols Using Bi-Metallic Copper/Cobalt Catalysts," Lanomuir, 4, (1988).
13. Chan, Y-C. and R.B. Anderson, Temperature-Programmed Desorption of N2, Ar, and C02 Encapsulated in 3A Zeolite," Journal of Catalysis, 50, pp 319-329 (1977).
14. Chen, I. and F-L. Chen, "Effect of Alkali & Alkaline-Earth Metals on the Resis-tivity to Coke Formation and Sintering of Nickel-Alumina Catalysts," Industrial Engineering & Chemical Research, 29, pp 534-539 (1990).
15. Chen, I. and F-L. Chen., "Effect of Initial pH Value on Coke Formation of Nickel-Alumina Catalysts in Catalytic Cracking," Industrial Engineering Chemical Research,29, pp 550-554 (1990).
16. Choudhary, V.R. and V.S. Nayak, "A GC Pulse Method Based on Temperature-Programmed Desorption under Chromatographic Conditions for Measuring Irreversible Adsorption on Solid Catalysts," Applied Catalysis, 4, pp 31- 36 (1982).
17. Cvetanovic, R.J. and Y. Amenomiya, "A Temperature-Programmed Desorption Technique for Investigation of Practical Catalysts," Catalysis Reviews, 6(1), pp 21-48 (1972).
18. Diagne, C., H. Idriss, I. Pepin, J.P. Hindermann, and A. Kiennemann “Temperature-Programmed Desorption Studies on Pd/Ce02 after Methanol and Formic Add Adsorption and Carbon Monoxide-Hydrogen Reaction,” Applied Catalysis, 50, pp 43-53 (1989).
19. Diagne, C., H. Idriss, J.P. Hindermann, and A. Kiennemann, "Promoting Effects of Lithium on Pd/Ce02 Catalysts in Carbon Monoxide-Hydrogen Reactions. Chemical Trapping and Temperature-Programmed Desorption Studies," Applied Catalysis, 51, pp 165-180 (1989).
20. Dossi, C., A Fusi, E. Grilli, R. Psaro, R. Ugo, and R. Zanoni, "FTIR, XPS and TPD Studies on the Thermal Decomposition of Os3 (CO 12/Silica: A Multi- technique Approach to the Resolution of Some Controversial Problems," Catalysis Today, 2, (1988).
21. Falconer, J.L. and J.A. Schwarz, “Temperature-Programmed Desorption and Reaction: Applications to Supported Catalysts,” Catalysis Review- Scientific Engineering, 25 (2), pp 141-227 (1983).
22. Halpem, B. and J.E. Germain, Thermodesorption of Oxygen from Powdered Transition Metal Oxide Catalysts," Journal of Catalysis, 37, pp 44-56 (1975).
23. Hong, C-C. and C-T. Yeh, "Probing the Electronic Interaction between Metal and Support on Pd/Ti02 Catalyst with Absorption of Hydrogen," Mater. Chem. Phvs., 20, pp 471-483 (1988).
24. Hu, Z., K. Kunimori, and T. Uchijima, "Interaction of Hydrogen and Oxygen with Niobia-Supported and Niobia-Promoted Rhodium Catalysts," Applied Catalysis, 69, pp 253-268 (1991).
25. Iwamoto, Masakazu, Yoda, Yukihiro, Egashira, and Selyama, Tetsuro, "Study of Metal Oxide Catalysts by Temperature-Programmed Desorption," The Journal of Physical Chemistry, 80, No. 18 (1976).
26. Kofke, T.J., Gricus, R.J. Gorte and G.T. Kokotailo, "Determination of Framework Concentrations of Gallium in [Ga]-ZSM-5," Applied Catalysis, 54, pp 177-188 (1989).
27. Konvalinka, J.A., P.H. Van Oeffelt, and J.J.F. Schotten, Temperature-Programmed Desorption of Hydrogen from Nickel Catalysts," Applied Catalysis,1, pp 141-158 (1981).
28. Konovalova, N.D., V.A. Zazhigalov, Y.P. Zartseu, V.M. Belousov, and E.I. Yaremenko, "Investigation of Acidic Properties of the Surface of V and Mo Oxides and V-Mo-0 Catalysts by the Ammonia Thermal-Desorption Method," Sov. Proa. Chem., 54, pp 33-37 (1988).
29. Leary, K.J., J.N. Michaels, and A.M. Stacy, "Penetration of Hydrogen into Sub-surface Sites of Silica-Supported Palladium During Temperature-Programmed Desorption," Langmuir, 4, pp 1251-1257 (1988).
30. Le Van Mao, R., T.M. Nguyen, and J. Yao, "Conversion of Ethand in Aqueous Solution Over ZSM-5 Zeolites. Influence of Reaction Parameters and Catalyst Acidic Properties as Studied by Ammonia TPD Technique," Applied Catalysis, 61, pp 161-173 (1990).
31. Levy, P-J. and M. Prime, "States of Hydrogen Adsorption on PlatinumAlumina and Platinum-Ceria Catalysts. A Temperature-Programmed Desorption Study." Applied Catalysis, 70, DP 263-276 (1991)
32. Liu, X., Y. Yang, and J. Zhang, Temperature-Programmed Reduction and Desorption Studies of Praseodymium Promoted Platinum/Alumina Catalysts," Applied Catalysis, 71, pp 167-184 (1991).
33. Marengo, S., A. Carimati, A. Girelli, S. Martinengo, and L. Zanderighi, "Studies on the Reactivity of Supported Rhodium and Molybdenum Carbonyl Complexes using Temperature-Programmed Techniques," Catalysis Today, 6, pp 89-96 (1989).
34. MoCormick. R.L, J.R. Baker, H.W. Haynes, Jr., and R. Malhotra, “Surface Aridity Studied by the Temperature-Programmed Desorption of Tert-Butvlamine,” Energy Fuels, 2, pp 740-743 (1988).
35. Mieville, R.L. and M.G. Reichmann, “Temperature-Programmed Desorption Study of CO on Pt Reforming Catalysts,” Preprints Division of Petroleum Chemistrv ACS, pp 601-606 (1988). 36. Moon, S-J. and S-K. Ihm, "Nitric Oxide Chemisorption and Temperature-Programmed Desorption Study of Cobalt and Molybdenum Catalysts Supported on Activated Carbon and Alumina," Applied Catalysis, 42,pp 307-324 (1988).
37. Nag, N.K., D. Fraenkel, JA Moulijn, and B.C. Gates, "Characterization of Hydroprocessing Catalysts by Resolved Temperature-Programmed De-sorption, Reduction, and Sulfiding," Journal of Catalysis, 66, pp 162-170 (1980).
38. Qi, Y., Z. Wang, and R. Wang, "Design and Study of Catalysts for Selective Hydrogenation," Applied Catalysis, 53, pp 63-70 (1989).
39. Spinnid, R. and A. Ulibarri, "Characterization of the Catalytic Activity of a Thermally Activated Hydrotaldte-like Compound in Propylene Oligomerization," Mater. Chem. Phys., 26, pp 1-12 (1990).
40. Subramanian, S. and J.A. Schwarz, "Structure and Activity of Composite Oxide Supported Platinum-Indium Catalysts." Applied Catalysis, 74,pp 65-81 (1991).
41. Suzuki, T., T. Hiral, and S. Hayashi, “Adsorbate Interaction Between Carbon Monoxide and Ethylene over y-Al2O3 “React. Kinet. Catal. Lett., 43, pp 293-299 (1991).
42. Tejuca, G.L, A.T. Bell, J.L.G. Fierro, and MA Pena, "Surface Behavior of Reduced LaCoO3 as studied by TPD of CO, C02 and H2 Probes and by XPS," Applied Surface Science, 31, pp 301-316 (1988).
