Publications from the Lund Group

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Papers

Proceedings

Presentations

Dissertations

Theses

Papers

58. “Formation and Growth of Humins via Aldol Addition and Condensation during Acid-Catalyzed Conversion of HMF,” S. Patil and C. R. F. Lund, Energy Fuels, 25 (10), 4745-4755 (2011). [more info]

57. “A Rate Expression for Water-Gas Shift over a Gold/Ferrochrome Catalyst,” G. N. Vajani, S. L. Ng and C. R. F. Lund, Ind. Eng. Chem. Res., 50 (18), 10493-10499 (2011). [more info]

56. “Copper Promotion of High Temperature Shift,” J. S. Coleman, M. Zhang, R. M. Van Natter and C. R. F. Lund, Catalysis Today, 160, 191-197 (2011). [more info]

55. “A DFT Study of the Effect of Copper Promotion upon Iron Oxide Surface Species,” R. M. Van Natter, J. S. Coleman and C. R. F. Lund, J. Molecular Cat. A, 311, 17 (2009). [more info]

54. “DFT Models for Active Sites on High Temperature Water-Gas Shift Catalysts,” R. M. Van Natter, J. S. Coleman and C. R. F. Lund, J. Molecular Cat. A, 292 76 (2008). [more info]

53. “Effects of Zeolite Channel Walls and Cation Migration on N₂O Decomposition Energies in Fe/ZSM-5,” C. R. F. Lund, J. Catal., 243, 438-441 (2006). [more info]

52. “The Effect of NO upon N₂O Decomposition over Fe/ZSM-5 with Low Iron Loading,” C. Sang, B. H. Kim and C. R. F. Lund, J. Phys. Chem. B, 109 (6), 2295-2301 (2005). [more info]

51. “A Computational Study of Aluminum Chloride Activation for Toluene Chlorination,” S. R. Spencer, M. Zhang and C. R. F. Lund, J. Phys. Chem. A, 107 (48), 10335-10345 (2003). [more info]

50. “Assessing High-Temperature Water-Gas Shift Membrane Reactors.” D. Ma and C. R. F. Lund, Ind. Eng. Chem. Res., 42 (4), 711-717 (2003). [more info]

49. “An Experimental and Computational Study of Solvent Effects in Toluene Chlorination,” M. Zhang and C. R. F. Lund, J. Phys. Chem. A, 106 (43), 10294-10301 (2002). [more info]

48. “Issues Involved in Using MCSCF to Investigate Catalytic Sites Involving Transition Metals,” B. H. Kim and C. R. F. Lund, J. Molecular Cat. A, 188 (1-2), 173-187 (2002). [more info]

47. “Hydrogen storage in aligned carbon nanotubes,” Y. Chen, D. T. Shaw, X. D. Bai, E. G. Wang, C. Lund, W. M. Lu, and D. D. L. Chung, Appl. Phys. Lett., 78 (15), 2128-2130 (2001). [more info]

46. “Zeolite-Catalyzed Chlorination of Toluene by Sulfuryl Chloride: Activity, Selectivity and Deactivation of NaKL Zeolite,” M. C. Hausladen, R. C. Cyganovich, H. Y. Huang, and C. R. F. Lund, Appl. Catal. A: General, 219 (1-2), 1-12 (2001). [more info]

45. “Zeolite-Catalyzed Chlorination of Toluene by Sulfuryl Chloride: Activity, Selectivity and Deactivation of ZSM-5,” Chen-Chang Chang, M. J. Burger, G. M. Faitar, and C. R. F. Lund, J. Catal., 202, 59-67 (2001). [more info]

44. “Possible Role of Nitrite/Nitrate Redox Cycles in N₂O Decomposition and Light-Off over Fe-ZSM-5,” C. Sang and C. R. F. Lund, Catal. Lett., 73 (1), 73-77 (2001). [more info]

43. “Isothermal “Light-Off” during Catalytic N₂O Decomposition over Fe/ZSM-5,” C. Sang and C. R. F. Lund, Catal. Lett., 70, 165-173 (2000). [more info]

42. “Zeolite-Catalyzed Chlorination of Toluene by Sulfuryl Chloride: Activity, Selectivity and Deactivation of NaX and NaY Zeolites,” M. C. Hausladen and C. R. F. Lund, Appl. Catal. A: General, 190 (1-2), 269-281 (2000). [more info]

41. “Preliminary Assessment of Membrane Reactors as a Means to Improve the Selectivity of Methylamine Synthesis,” Chimin Sang, Chen-Chang Chang and C. R. F. Lund, Ind. Eng. Chem. Research, 38 (12), 4552-4562 (1999). [more info]

40. “The Effect of a Membrane Reactor upon Catalyst Deactivation during Hydrodechlorination of Dichloroethane,” Chen-Chang Chang, Christopher M. Reo, and C. R. F. Lund, Appl. Catal. B: Environ., 20, 309 (1999). [more info]

39. “Zeolite-Catalyzed Chlorination of Toluene by Sulfuryl Chloride: The Effect of Zeolite Drying,” M. C. Hausladen, B. W. Satterley, M. J. Burger, and C. R. F. Lund, Appl. Catal. A, 166 (1), 55 (1998). [more info]

38. “Zeolite-Catalyzed Chlorination of Toluene by Sulfuryl Chloride: The Role of Sulfuryl Chloride Decomposition in Chlorination,” B. W. Satterley, M. C. Hausladen, and C. R. F. Lund, Zeolites, 19, 434 (1997). [more info]

37. “Defining Conditions Where the Use of Porous Membrane Reactors Can be Justified Solely on the Basis of Improved Yield,” C. M. Reo, L. A. Bernstein, and C. R. F. Lund, Chem. Eng. Sci., 52 (18), 3075 (1997). [more info]

36. “Cocurrent Membrane Reactors Versus PFRs for Shifting Dehydrogenation Equilibrium,” C. M. Reo, L. A. Bernstein, and C. R. F. Lund, AIChE J., 43 (2), 495 (1997). [more info]

35. “The Effect of Adding Co to MoS₂/Al₂O₃ upon the Kinetics of Water-Gas Shift,” C. R. F. Lund, Ind. Eng. Chem. Res., 35 (9), 3067-3073, (1996). [more info]

34. “A Batch Membrane Reactor for Laboratory Studies,” L. A. Bernstein, C. M. Reo, and C. R. F. Lund, J. Membrane Sci., 118, 93, (1996). [more info]

33. “The Microkinetics of Water-Gas Shift over Sulfided Mo/Al₂O₃ Catalysts,” C. R. F. Lund, Ind. Eng. Chem. Res., 35 (8), 2531-2538, (1996). [more info]

32. “CESL: The Chemical Engineering Simulation Laboratory,” D. A. Kofke, M. Grosso, S. Gollapudi, and C. R. F. Lund, Chem. Eng. Ed., 30 (2), 114 (1996).

31. “Permeation Through Kapton® Polyimide at Elevated Temperatures,” M. Hausladen, K. A. Oship, and C. R. F. Lund, Chem. Eng. Comm. 143, 91-97 (1996). [more info]

30. “The Role of Chlorine in Induction Periods During the Oxidation of Methane over Pd/SiO₂,” S. S. Peri and C. R. F. Lund, J. Catal. 152, 410 (1995). [more info]

29. “Membrane Reactors for Catalytic Series and Series-Parallel Reactions,” L. A. Bernstein and C. R. F. Lund, J. Membrane Sci. 77, 155 (1993). [more info]

28. “Hydrodenitrogenation-Selective Catalysts I. Fe Promoted Mo/W Sulfides,” T. C. Ho, A. J. Jacobson, R. R. Chianelli, and C. R. F. Lund, J. Catal. 138, 351 (1992). [more info]

27a. “Improving Selectivity During Methane Partial Oxidation by Use of a Membrane Reactor,” Lund, C. R. F., Catal. Lett. 12, 395 (1992). [more info]

27b. “Letter to the Editor,” Lund, C. R. F., Catal. Lett. 13, 423 (1992). [more info]

26. “Use of a Membrane Reactor to Improve Selectivity to Intermediate Products in Consecutive Catalytic Reactions,” S. Agarwalla and C. R. F. Lund, J. Membrane Sci. 70, 129 (1992). [more info]

25. “A Model for the Catalytic Growth of Carbon Filaments,” Chitrapu, P., Lund, C. R. F., and Tsamopoulos, J. A., Carbon 30, 285 (1992). [more info]

24. “The Synthesis and Cracking Behavior of Zeolite-Amorphous Silica-Alumina Composites Prepared Using Gels with High Alumina and Low Organic Template Content,” P. Yarlagadda, C. R. F. Lund, and E. Ruckenstein, J. Catal. 133, 28 (1992). [more info]

23. “The Dependence of Catalytic Carbon Filament Growth Kinetics Upon Gas Phase Carbon Activity,” S. A. Safvi, E. C. Bianchini, and C. R. F. Lund, Carbon 29, 1245 (1991). [more info]

22. “Carbon Gasification by Group VIII Metal Catalysts,” Mark E. Vincett, J. A. Tsamopoulos, and C. R. F. Lund, J. Catal. 126, 279 (1990). [more info]

21. “Different Activities and Selectivities of Silica-Alumina Catalysts Synthesized in Aqueous and Alcohol Solvents,” P. Yarlagadda, C. R. F. Lund, and E. Ruckenstein, J. Catal. 125, 421 (1990). [more info]

20. “Oligomerization of Ethene and Propene over Composite Zeolite Catalysts,” P. Yarlagadda, C. R. F. Lund, and E. Ruckenstein, Appl. Catal. 62, 125 (1990). [more info]

19. “Solubility and Diffusivity of Carbon in Metals,” R. T. Yang, P. G. Goethal, J. M. Schwartz, and C. R. F. Lund, J. Catal. 122, 206 (1990). [more info]

18. “Solid State Diffusion During Carbon Gasification and Filament Growth,” C. R. F. Lund and R. T. Yang, Carbon 27, 956 (1989). [more info]

17. “Conversion of Methanol to Hydrocarbons over Silica-Alumina: Selective Formation of Lower Olefins,” P. Yarlagadda, C. R. F. Lund and E. Ruckenstein, Appl. Catal. 54, 139 (1989). [more info]

16. “Kinetic Implications of Mechanisms Proposed for Catalytic Carbon Filament Growth,” E. C. Bianchini, and C. R. F. Lund, J. Catal. 117, 455 (1989). [more info]

15. “Further Studies of the Formation of Filamentous Carbon from the Interaction of Supported Iron Particles with Acetylene,” R. T. K. Baker, J. J. Chludzinski, Jr. and C. R. F. Lund, Carbon 25, 295 (1987). [more info]

14. “Staged Carbon Gasification with Nickel Catalysts,” Carl R. F. Lund, Carbon 25, 337 (1987). [more info]

13. “The Effect of Crystal Structure upon the Activity of Iron in Steam Gasification,” Carl R. F. Lund, R. D. Sherwood and R. T. K. Baker, J. Catal. 104, 233 (1987). [more info]

12. “Nickel Catalyst Deactivation in the Steam-Carbon Reaction,” C. R. F. Lund, J. Catal. 95, 71 (1985). [more info]

11. “A Comparison of the Catalytic Influence of Nickel and Copper-Nickel Alloys on the Graphite-Steam Reaction,” R. T. K. Baker, N. S. Dudash, C. R. F. Lund and J. J. Chludzinski, Jr., Fuel 64, 1151 (1985). [more info]

10. “Platinum, Barium, and Platinum-Barium Catalyzed Gasification of Graphite in Steam and Carbon Dioxide,” C. R. F. Lund, J. J. Chludzinski, Jr. and R. T. K. Baker, Fuel 64, 789 (1985). [more info]

9. “Catalytic Gasification of Graphite by Barium in Steam, Carbon Dioxide, Oxygen, and Hydrogen,” R. T. K. Baker, Carl R. F. Lund and J. J. Chludzinski, Jr., J. Catal. 87, 255 (1984). [more info]

8. “A Study of the Nickel-Titanium Oxide Interaction,” A. J. Simoens, R. T. K. Baker, D. J. Dwyer, Carl R. F. Lund and R. J. Madon, J. Catal. 86, 359 (1984). [more info]

7. “Poisoning of the Platinum-Catalyzed Oxidation and Hydrogenation of Graphite by the Addition of CCl₄,” R. T. K. Baker, Carl R. F. Lund and J. A. Dumesic, Carbon 21, 469 (1983). [more info]

6. “Strong Oxide-Oxide Interactions in Silica-Supported Magnetite Catalysts: IV. Catalytic Consequences of the Interaction in Water-Gas Shift,” Carl R. F. Lund and James A. Dumesic, J. Catal. 76, 93 (1982). [more info]

5. “Strong Oxide-Oxide Interactions in Silica-Supported Magnetite Catalysts: II. The Core/Shell Nature of the Interaction,” Carl R. F. Lund and James A. Dumesic, J. Phys. Chem. 86, 130 (1982). [more info]

4. “Strong Oxide-Oxide Interactions in Silica-Supported Magnetite Catalysts: III. Water-Induced Migration of Silica on Geometrically Designed Catalysts,” Carl R. F. Lund and James A. Dumesic, J. Catal. 72, 21 (1981). [more info]

3. “Strong Oxide-Oxide Interactions in Silica-Supported Magnetite Catalysts: I. X-ray Diffraction and Mössbauer Spectroscopy Evidence for Interaction,” Carl R. F. Lund and James A. Dumesic, J. Phys. Chem. 85, 3175 (1981). [more info]

2. “Magnetite Surface Area Titration Using Nitric Oxide, II. Pretreatment Effects and Silica-Supported Samples,” Joseph E. Kubsh, Carl R. F. Lund and James A. Dumesic, React. Kinet. Catal. Lett. 17, 115 (1981). [more info]

1. “Magnetite Surface Area Titration Using Nitric Oxide,” Carl R. F. Lund, James J. Schorfheide and James A. Dumesic, J. Catal. 57, 105 (1979). [more info]

 

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Papers

Proceedings

Presentations

Dissertations

Theses

Proceedings

9. “A TExT for Engineering Education in the 21^st Century, 2. A Sample Study Unit,” C. R. F. Lund. Proceedings of the 2009 Annual ASEE Conference, AC 2009-612, Austin, TX, 2009. [more info]

8. “A TExT for Engineering Education in the 21^st Century, 1. Objectives and Overview,” C. R. F. Lund. Proceedings of the 2008 Annual ASEE Conference, AC 2008-192, Pittsburgh, PA, 2008. [more info]

7. “Kinetic Changes During the Activation of Pd Methane Oxidation Catalysts.” C. R. F. Lund, S. S. Peri and S. Harou-Kouka, Preprints of Papers, Division of Petroleum Chemisry, ACS 42, 173, 1997.

6. “Partial Oxidation Using Membrane Reactors.” L. A. Bernstein, S. Agarwalla, and C. R. F. Lund, ACS Symposium Series 523, “Catalytic Selective Oxidation,” pp 427-437. American Chemical Society, Washington, D.C., 1993. [more info]

5. “Partial Oxidation Using Membrane Reactors.” L. A. Bernstein, S. Agarwalla, and C. R. F. Lund, Preprints of Papers, Division of Petroleum Chemistry, ACS, 37, 1268, 1993.

4. “A Denitrogenation-Selective Hydrotreating Catalyst,” T. C. Ho, A. J. Jacobson, R. R. Chianelli, and C. R. F. Lund, Preprints of Papers, Division of Petroleum Chemistry, ACS, 37, 729 (1992).

3. “A Model of Nickel-Catalyzed Gasification,” M. Vincett, C. R. F. Lund and J. Tsamopoulos, Preprints of Papers, Division of Fuel Chemistry, ACS, 34, 44 (1989).

2. “Nickel Deactivation During Gasification Reactions,” C. R. F. Lund, Stud. Surf. Sci. Catal. 38, “Catalysis 1987, Proc. 10th North Amer. Meet. Catal. Soc.” p. 733. J. W. Ward, ed., Elsevier, New York, 1988. [more info]

1. “Water-Gas Shift Over Magnetite-Based Catalysts: Nature of Active Sites for Adsorption and Catalysis,” C. R. F. Lund, J. E. Kubsh and J. A. Dumesic, ACS Symposium Series, “The Role of Solid State Chemistry in Catalysis” 279, 313 (1985). [more info]

 

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Papers

Proceedings

Presentations

Dissertations

Theses

 

Presentations

110. “Reducing Waste Byproducts of Cellulose Hydrolysis,” 2011 ESW National Conference, Buffalo, NY, October 21, 2011.

109. “Growth of Humins during Acid-Catalyzed Carbohydrate Conversion,” AIChE Annual Meeting, Minneapolis, MN, October 16-21, 2011.

108. “Characterization of humins formed during acid-catalyzed hydrolysis of glucose, fructose and HMF,” 22nd North American Catalysis Society Meeting, Detroit, MI, June 5-10, 2011.

107. “Characterization of Humins formed during Hydrolysis of C6 Sugars,” Pittsburgh-Cleveland Catalysis Society Meeting, Pittsburgh, PA, May 16-17, 2011.

106. “Deactivation of Gold-Ferrochrome Very Low Temperature Water-Gas Shift Catalysts,” AIChE Annual Meeting, Salt Lake City, UT, November 7-12, 2010.

105. “Moving Lectures Out of the Classroom,” Target Your Teaching Conference for Teaching Assistants, University at Buffalo, Buffalo, NY, August 2010.

104. “A Comparative Overview of Biofuels and their Potential to Meet our Energy Requirements,” Business of Energy June 16th Event in Biofuels, Buffalo, NY, June 16, 2010.

103. “Role of Copper as a High Temperature Shift Promoter,” AIChE Annual Meeting, Nashville TN, November 8-13, 2009.

102. “Textbooks are so Twentieth Century,” AIChE Annual Meeting, Nashville TN, November 8-13, 2009.

101. “Fe₃O₄-based High and Low Temperature Shift Catalysts,” Pittsburgh-Cleveland Catalysis Society, Pittsburgh, PA, October 9, 2009.

100. “Making Room for Active Learning in the Classroom,” Target Your Teaching Conference for Teaching Assistants, University at Buffalo, Buffalo, NY, August 2009.

99. “Alternative Fuel Alternatives,” UB This Summer Lecture Series, University at Buffalo, SUNY, July 22, 2009.

98. “A TExT for Engineering Education in the 21^st Century, 2. A Sample Study Unit,” 2009 Annual ASEE Conference, Austin, TX, June 2009.

97. “There isn't a Remedy for the U. S. Energy Situation; There are Several,” Western New York Science and Technology Forum, University at Buffalo, Buffalo, NY December 3, 2008.

96. “Kinetic Study of Water-Gas Shift over Au-Ferrochrome Catalysts,” Annual AIChE Meeting, Philadelphia, PA, November 17, 2008.

95. “TExTs for the 21^st Century,” Annual AIChE Meeting, Philadelphia, PA, November 17, 2008.

94. “Making Room for Active Learning in the Classroom,” Target Your Teaching Conference for Teaching Assistants, University at Buffalo, Buffalo, NY August 2008.

93. “A TExT for Engineering Education in the 21^st Century, 1. Objectives and Overview.” 2008 Annual ASEE Conference, Pittsburgh, PA, June 2008.

92. “Moving Lectures Out of the Classroom to Make Room for Learning,” University at Buffalo Teaching and Learning Center, Teaching Effectiveness Workshop Series, April 7, 2008, Buffalo, NY.

91. “There Isn't an Answer to the U. S. Energy Dilemma, So What Should We Do?,” U. B. Scholars Forum Seminar, March 29, 2008, Buffalo, NY.

90. “Comparison of Unpromoted Ferrochrome WGS Catalysts to Those Promoted with Au or Cu.” AIChE Annual Meeting, Salt Lake City, November 2007.

89. “A Computational Study of Fe₃O₄ (100) Surface Species Related to Water-Gas Shift.” AIChE Annual Meeting, San Francisco, November 2006.

88. “Role of copper and other high temperature water-gas shift promoters,” 231^st ACS National Meeting, Atlanta, GA, March 2006.

87. “Promotion of ferrochrome water-gas shift catalysts with copper,” Pittsburgh-Cleveland Catalysis Society Meeting, Pittsburgh, PA, December, 2005.

86. “Effects of Cation Migration upon Energetics of Fe/ZSM-5 Catalyzed Reactions,” AIChE Annual Meeting, Cincinnati, OH, November 2005.

85. “Computational Investigation of Cation Migration and its Effect Upon the Thermochemistry of N₂O Decomposition over Fe/ZSM-5,” 19^th North American Meeting of the Catalysis Society, Philadelphia, PA, May 2005.

84. “Tenure and Promotion: Perspective from a Departmental Chairperson,” AIChE Annual Meeting, Austin, TX, November 2004.

83. “A Method for Approximating Activation Barriers using Geometric Interpolation,” AIChE Annual Meeting, Austin, TX, November 2004.

82. “A Unifying Mechanistic Model for Redox Reactions over Fe/ZSM-5,” AIChE Annual Meeting, Austin, TX, November 2004.

81. “Microkinetic Modeling of High-Temperature Shift for Development of Catalysts for Membrane Reactors,” Engelhard Corporation, Iselin, NJ, July 29, 2004.

80. “The Effect of Sodium Cations upon Redox Cycles involving Fe/ZSM-5,” AIChE Annual Meeting, San Francisco, CA, November 2003.

79. “The Role of Water in the Activation of Aluminum Chloride Halogenation Catalysts,” AIChE Annual Meeting, San Francisco, CA, November 2003.

78. “Environmental Applications of Heterogeneous Catalysis: Remediation and Source Reduction,” Civil, Structural and Environmental Engineering Department, University at Buffalo, SUNY, Buffalo, NY, September 26, 2003.

77. “Water-Gas Shift Kinetics over Iron Oxide Catalysts at Membrane Reactor Conditions,” 18^th North American Catalysis Society Meeting, Cancun, June 2003.

76. “Redox Cycles over Fe/ZSM-5,” 18^th North American Catalysis Society Meeting, Cancun, June 2003.

75. “Development of Catalysts and Processes for Environmentally Benign Aromatic Chlorination,” ESI Spring Symposium, Buffalo, NY, April 2003.

74. “Redox Cycles over Fe/ZSM-5,” AIChE Annual Meeting, Indianapolis, IN, November 2002.

73. “High Temperature Water-Gas Shift at Membrane Reactor Conditions,” AIChE Annual Meeting, Indianapolis, IN, November 2002.

72. “Water Gas Shift Kinetics at Membrane Reactor Conditions,” University Coal Contractors Review Meeting, Pittsburgh, PA, June 4, 2002.

71. “Water-Gas Shift Kinetics over Modified Iron Oxide Catalysts at Membrane Reactor Conditions,” Pittsburgh-Cleveland Catalysis Society Meeting, Monroeville, PA, May 10, 2002.

70. “Surface Intermediates in Redox Cycles on Fe/ZSM-5,” Pittsburgh-Cleveland Catalysis Society Meeting, Cranberry PA, December 7, 2001.

69. “Pathways in Homogeneous Catalytic Chlorination,” AIChE Annual Meeting, Reno, NV, November 2001.

68. “Water-Gas Shift over Promoted Iron Oxide,” AIChE Annual Meeting, Reno, NV, November 2001.

67. “Selective Chlorination of Toluene using Zeolites: Activity, Selectivity and Deactivation,” GE Corporate Research & Development, Schenectady, NY, October 12, 2001.

66. “An Experimental and Computational Investigation of Redox Cycles during N₂O Decomposition,” Chemical Engineering Department Seminar, Worchester Polytechnic Institute, October 11, 2001.

65. “A Nitrite/Nitrate Redox Cycle for N₂O Decomposition over Fe/ZSM-5,” 17^th North American Catalysis Society Meeting, Toronto, June 2001.

64. “Water-Gas Shift at Membrane Reactor Conditions,” University Coal Contractors Review Meeting, Pittsburgh, PA, June 5, 2001.

63. “Microkinetic Models for Water-Gas Shift at Membrane Reactor Conditions,” Chemical Engineering Department Seminar, Tufts University, March 26, 2001.

62. “An Experimental and Computational Study of N₂O Decomposition on Fe/ZSM-5,” Center for Computational Research Colloquium Series, University at Buffalo, February 23, 2001.

61. “Uncatalyzed and AlCl₃-catalyzed chlorination of toluene,” AIChE Annual Meeting, Los Angeles, CA, November 2000.

60. “N₂O Decomposition over Fe-ZSM-5,” AIChE Annual Meeting, Los Angeles, CA, November 2000.

59. “Water Gas Shift Kinetics under Membrane Reactor Conditions,” AIChE Annual Meeting, Los Angeles, CA, November 2000.

58. “Ab-initio modeling of iron dimers in ZSM-5 and other iron clusters,” AIChE Annual Meeting, Los Angeles, CA, November 2000.

57. “N₂O Decomposition over Fe-ZSM-5: Two Levels of Catalytic Activity,” Catalysis Gordon Conference, Colby-Sawyer College, New London, NH, June 26-30, 2000.

56. “Water Gas Shift at Membrane Reactor Conditions,” University Coal Research Contractors Review Meeting, Pittsburgh, PA, June 6-7, 2000.

55. “Chlorination of Toluene Using ZSM-5,” AIChE Annual Meeting, Dallas, TX, November 1999.

54. “Activation of Oxygen on Fe/ZSM-5,” AIChE Annual Meeting, Dallas, TX, November 1999.

53. “On the Role of the Lewis Acid in Electrophilic Substitution,” AIChE Annual Meeting, Dallas, TX, November 1999.

52. “Assessment of Methylamine Synthesis using Membrane Reactor,” AIChE Annual Meeting, Dallas, TX, November 1999.

51. “DFT Studies of the Chlorination of Toluene using AlCl₃,” Jaguar/MacroModel Users Group Meeting, Forrestal Marriott Hotel, Princeton, NJ, August 1999.

50. “Selective Toluene Chlorination Using ZSM-5 Catalysts,” 16^th North American Catalysis Society Meeting, Boston, June 1999.

49. “Catalytic Chlorination of Toluene Using Zeolite Catalysts,” Pittsburgh-Cleveland Catalysis Society Meeting, Mercer, PA, December 1998.

48. “Catalysts for Selective Electrophilic Substitution,” Annual AIChE Meeting, Miami, November 1998.

47. “Using Membrane Reactors to Enhance Conversion of Large Molecules in Reversible Reactions,” The Procter & Gamble Company, Cincinnati, OH, March 23, 1998.

46. “Changes in Reaction Kinetics during Activation of Supported Pd,” Annual AIChE Meeting, Los Angeles, November 1997.

45. “Zeolite-Catalyzed Chlorination of Toluene Using Sulfuryl Chloride,” 15^th North American Catalysis Society Meeting, Chicago, May 1997.

44. “Kinetic Changes during the Activation of Pd Methane Oxidation Catalysts,” Spring ACS Meeting, San Francisco, April 1997.

43. “An Assessment of Membrane Reactors for Dehydrogenation Reactions,” Annual AIChE Meeting, Chicago, November 1996.

42. “Using Membrane Reactors for Catalytic Reactions to Improve Selectivity,” Workshop on Advances in Homogeneous and Heterogeneous Catalysis and Surface Science, June 1996, Nanjing, China.

41. “Zeolite Catalysts for Enhanced para-Selectivity during Toluene Chlorination,” Workshop on Advances in Homogeneous and Heterogeneous Catalysis and Surface Science, June 1996, Nanjing, China.

40. “The Activation of Pd Catalysts during Oxidation of Methane,” Workshop on Advances in Homogeneous and Heterogeneous Catalysis and Surface Science, June 1996, Nanjing, China.

39. “The Mechanism of Water-Gas Shift over Sulfided Molybdenum Catalysts,” Workshop on Advances in Homogeneous and Heterogeneous Catalysis and Surface Science, June 1996, Nanjing, China.

38. “When Can a Catalytic Membrane Reactor Enhance Dehydrogenation Yields?,” Gordon Conference on Catalysis, June 1996.

37. “Experimental Studies of the Effect of Membrane Reactors on Selectivity,” Annual AIChE Meeting, Miami, November 1995.

36. “Selectivity and Activity in Zeolite-Catalyzed Chlorination,” Annual AIChE Meeting, Miami, November 1995.

35. “The Microkinetics of Water-Gas Shift,” 1995 Gordon Conference on Catalysis, Colby-Sawyer College, NH, June 26-27, 1995.

34. “A Microkinetic Model for Sulfur-Tolerant Water-Gas Shift,” 14^th North American Meeting of the Catalysis Society, Snowbird, UT, June 1995.

33. “Reducing Chemical Hazardous Waste Generation at the Source,” NYS Center for Hazardous Waste Management Industrial Research Roundtable, February, 1995.

32. “Effect of Preparation and Pretreatment Methods on the Activity of Pd/SiO₂ in the Oxidation of Methane,” Annual AIChE Meeting, San Francisco, November 1994.

31. “Carburization of Pd During Catalytic Oxidation of Methane,” 1994 Gordon Conference on Catalysis, Colby-Sawyer College, NH, June 27 & 28 1994.

30. “Effect of Preparation and Pretreatment on the Activity of Pd/SiO₂ in the Oxidative Conversion of Methane,” SUNY-Buffalo, Chemical Engineering Department Seminar, April, 1994.

29. “Membrane Reactors for Consecutive Heterogeneous Catalytic Reactions,” Annual AIChE Meeting, St. Louis, November 1993.

28. “Engineering Membrane Reactors to Control Selectivity in Consecutive Catalytic Reactions,” 13^th North American Meeting of the Catalysis Society, Pittsburgh, PA, May 1993.

27. “Methane Oxidation over Palladium and Palladium-Copper Supported on Silica,” Annual AIChE Meeting, Miami Beach, November 1992.

26. “Partial Oxidation Using Membrane Reactors,” 204^th National ACS Meeting, Washington, D.C., August 1992.

25. “Composite Catalysts of ZSM-5 and Amorphous Silica-Alumina,” Annual AIChE Meeting, Los Angeles, November 1991.

24. “An Assessment of Catalytic Membrane Reactors for Use in the Partial Oxidation of Methane,” Annual AIChE Meeting, Los Angeles, November 1991.

23. “Partial Oxidations in Catalytic Membrane Reactors,” SUNY - Buffalo, Chemistry Department Colloquium, April 3, 1991.

22. “Deactivation of Nickel Catalysts During Steam Gasification of Carbon,” Worcester Polytechnic Institute, Chemical Engineering Department Seminar, April 2, 1990.

21. “Water Gas Shift Reaction over Magnetite Catalyst,” AIChE 1990 Spring National Meeting, Orlando, March 19, 1990.

20. “Activity and Coking Studies of High Silica Zeolites in Oxygenate and Hydrocarbon Conversion Reactions,” Annual AIChE Meeting, San Francisco, November, 1989.

19. “Kinetic Implications of Mechanisms Proposed for Carbon Filament Growth,” Carbon Conference, Penn State University, June 27, 1989.

18. “Mechanistic Interpretation of the Kinetics of Catalytic Carbon Filament Growth,” North American Meeting of the Catalysis Society, Detroit, May 8, 1989.

17. “A Model of Nickel-Catalyzed Gasification,” 197^th National ACS Meeting, Dallas, April 10, 1989.

16. “Redox Behavior of Iron in Faujasite,” W. R. Grace, Research Division, Columbia, Maryland, July 15, 1988.

15. “Kinetic Studies of Iron-Catalyzed Carbon Deposition,” Union Carbide Parma Technical Center, Parma, Ohio, June 20, 1988.

14. “Growth of Carbon Filaments Using Iron Catalysts,” Hyperion Catalysis International, Lexington, Mass, Nov. 4, 1987.

13. “Carbon Filament Growth,” Carbon Science and Technology Short Course, SUNY-Buffalo, April, 1987.

12. “Carbon Deposition on Nickel during Steam Gasification,” 17^th Biennial Conference on Carbon, Worcester, MA, 1987.

11. “Nickel Deactivation During Gasification Reactions,” 10^th North American Meeting of the Catalysis Society, San Diego, 1987.

10. “Nickel Catalyst Deactivation During Steam Gasification,” Chemical Engineering Department Seminar, University of Wisconsin, 1986.

9. “Catalytic Gasification of Carbon Using Iron,” Annual AIChE Meeting, Miami Beach, 1986.

8. “Deactivation During Nickel Catalyzed Gasification Reactions,” Joint Spring Symposium of the New York and New England Catalysis Societies, New Haven, 1986.

7. “Steam Gasification of Graphite Using Platinum, Barium, and Platinum-Barium Catalysts,” Annual AIChE Meeting, Chicago, 1985.

6. “Active Sites on Magnetite Water-Gas Shift Catalysts,” ACS Meeting, Miami Beach, 1985.

5. “Steam Gasification of Graphite Using Platinum, Barium, and Platinum-Barium Catalysts,” Auburn University Chemical Engineering Department Seminar, 1985.

4. “Inhibition of the Platinum Catalyzed Gasification of Graphite,” Biennial Conference on Carbon, San Diego, 1983.

3. “Strong Oxide-Oxide Interactions in Fe₃O₄/SiO₂ Water-Gas Shift Catalysts,” North American Catalysis Society Meeting, Boston, 1981.

2. “Structure Sensitivity in Reactions on Oxides: The Water-Gas Shift over Fe₃O₄,” Annual AIChE Meeting, Chicago, 1980.

1. “Supported Magnetite Catalysts for the Water-Gas Shift: Surface Titration using Nitric Oxide,” Annual AIChE Meeting, Miami, 1978.

 

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Papers

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Presentations

Dissertations

Theses

 

Ph. D. Dissertations

13. Gaurav N. Vajani, “Low Temperature Water-Gas Shift Reaction over Gold-Ferrochrome Catalysts,” Ph. D. Dissertation, University at Buffalo, SUNY, Dept. of Chemical Engineering (2011). [more info]

12. Rainee M. VanNatter, “Active Site Models for High Temperature Water Gas Shift Reaction Over Iron Oxide Catalysts,” Ph. D. Dissertation, University at Buffalo, SUNY, Dept. of Chemical Engineering (2011). [more info]

11. John S. Coleman, “Mechanistic Modeling of the High Temperature Water Gas Shift Reaction on Ferrochrome,” Ph. D. Dissertation, University at Buffalo, SUNY, Dept. of Chemical Engineering (2008). [more info]

10. Bin Chen, “A Mechanistic Study of Redox Pathways in Fe/ZSM-5,” Ph. D. Dissertation, University at Buffalo, SUNY, Dept. of Chemical Engineering (2006). [more info]

9. Mang Zhang, “An Experimental Investigation of Promoted Iron Based Oxide for High Temperature Water Gas Shift Reaction Catalysts at Membrane Reactor Conditions and an Experimental and Computational Study of Solvent Effects in Toluene Chlorination,” Ph. D. Dissertation, University at Buffalo, SUNY, Dept. of Chemical Engineering (2003). [more info]

8. Bryan Kim, “Methodology for ab initio Calculations of Spin-Coupled Transition Metal Clusters,” PhD Dissertation, University at Buffalo, SUNY, Dept. of Chemical Engineering (2001). [more info]

7. Chimin Sang, “Investigations on membrane application to catalytic methylamines synthesis and kinetics of nitrous oxide decomposition on FeZSM-5,” PhD Dissertation, University at Buffalo, SUNY, Dept. of Chemical Engineering (2001). [more info]

6. Chen-Chang Chang, “Selective Chlorination of Aromatic Hydrocarbons,” PhD Dissertation, University at Buffalo, SUNY, Dept. of Chemical Engineering (2001). [more info]

5. Saley Harou-Kouka, “Microkinetic Modeling of Methane Oxidation on Silica Supported Palladium at Medium Temperature,” PhD Dissertation, University at Buffalo, SUNY, Dept. of Chemical Engineering (1999). [more info]

4. Michael Conrad Hausladen, “Zeolite-Catalyzed Chlorination of Toluene By Sulfuryl Chloride: Zeolite Activity, Selectivity and Stability,” PhD Dissertation, University at Buffalo, SUNY, Dept. of Chemical Engineering (1996). [more info]

3. Mark Schiek, “Activity, Coking, and Acidity of Amorphous Silica-Alumina, ZSM-5 Zeolite, and Their Composite,” PhD Dissertation, University at Buffalo, SUNY, Dept. of Chemical Engineering (1996). [more info]

2. Lewis Andrew Bernstein, “Membrane Reactors for Consecutive Heterogeneous Catalytic Reactions,” PhD Dissertation, University at Buffalo, SUNY, Dept. of Chemical Engineering (1996). [more info]

1. Sarveswara Sastry Peri, “Kinetics of Methane Oxidation on Supported Palladium Catalyst Systems,” PhD Dissertation, University at Buffalo, SUNY, Dept. of Chemical Engineering (1995). [more info]

 

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Theses

 

M. S. Theses

18. Donghao Ma, M. S. “Kinetic Study of WGSR over Iron-Based Catalysts in a Membrane Reactor,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (2001). [more info]

17. Scott R. Spencer, “Ab-Initio Study of the Aluminum Chloride Catalysis of the Chlorination of Toluene,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (2001). [more info]

16. Gheorghita Mihaela Faitar, “K/ZSM5 Catalyzed Chlorination of Toluene Using Sulfuryl Chloride,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1999). [more info]

15. Richard Cale Cyganovich, “A Kinetic Study of the Catalytic Chlorination of Toluene By Sulfuryl Chloride Using Zeolite L and Aluminum Chloride,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1998). [more info]

14. Arun Subramanian, “Microkinetic Modeling of Water Gas Shift Reaction Over Rhodium on Silica Catalyst,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1998). [more info]

13. Yaping Huang, “Chlorination of Toluene — Zeolite L Catalyst Deactivation and Regeneration Study,” MS Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1997).

12. Matthew James Burger, “Toluene Chlorination Catalysis Using Zeolite ZSM-5,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1997). [more info]

11. Christopher Reo, “A Study of the Dehydrogenation of Small Hydrocarbons in Membrane Reactors,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1997). [more info]

10. Brian Wayne Satterley, “The Effect of the Decomposition of Sulfuryl Chloride on the Zeolite-Catalyzed Chlorination of Toluene,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1996). [more info]

9. Jane M. Lamanna, “Activation Behavior of a Silica-Supported Palladium Catalyst During Methane Oxidation,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1996). [more info]

8. Michael Hausladen, “Characterization of Polyimides as High Temperature Membrane Material for the Selective Separation of Partial Oxidation Products and Reactants,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1992). [more info]

7. Sunil Agarwalla, “Partial Oxidation of Methane: Preliminary Kinetic and Reactor Modeling,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1991). [more info]

6. Kimberly A. Oship, “High Temperature Permeation of CO₂, O₂, CH₄, and CH₃OH in Polyimide Films,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1991). [more info]

5. Syed A. Safvi, “A Catalytic Study of Carbon Filament Growth,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1990). [more info]

4. Amaresh N. Ramaswamy, “Investigations on the Water Gas Shift Reaction, Effect of Hydrogen and of Catalyst Acidity,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1990). [more info]

3. Padmavati Chitrapu, “A Model for the Catalytic Growth of Carbon Filaments,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1989). [more info]

2. Eber Carbone Bianchini, “A Study of the Catalytic Production of Carbon Filaments,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1988). [more info]

1. Anthony R. Knoerzer, “Pulse Adsorption on Zeolite Partial Oxidation Catalysts,” M. S. Thesis, University at Buffalo, SUNY, Dept. of Chemical Engineering (1988). [more info]

 

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Papers

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Theses