Robert R. McCormick School of Engineering and Applied Science
Kung Include File
Papers



   

2005

“Rational Synthesis of Asymmetric BicycloSiloxane,” W. Xue, M.C. Kung, and H.H. Kung, Chem. Comm. (2005) 2164 - 2166.

"Direct Evidence of Oxidized Gold on Supported Gold Catalysts", L. Fua, N.Q. Wuc, J. H.Yangb, F. Qua, D. L. Johnsona, M.C. Kungb, H.H. Kungb,*, V. P. Dravida, J. Phys. Chem. B, 109(9) (2005) 3704-3706.

“En Route to Complete Design of Heterogeneous Catalysts,” Harold H. Kung, Mayfair C. Kung, Topics in Catalysis, 34(1-4) (2005) 77.

“Activation of Au/TiO2 for CO Oxidation,” Jeff. H. Yang1, Juan D. Henao, Mpfunzeni C. Raphlulu, Yingmin. Wang, Tiziana Caputo, A.J. Groszek, Mayfair. C. Kung, Michael. S. Scurrell, Jeffrey T. Miller, and Harold H. Kung, J. Phys. Chem. B, 109(20) (2005) 10319-10326.

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2004

“CO oxidation over supported Au catalysts,” Mayfair C. Kung*, Colleen K. Costello, and Harold H. Kung, Catalysis, 17 (2004) 152.

“Stepwise synthesis of siloxane chains,” Zhixiang Chang, Mayfair C. Kung, and Harold H. Kung, Chem. Comm. 2004, 206 - 207.

“Gas phase oxidation of benzoic acid to phenol over nickel oxide catalyst,” V. Duma, K. E. Popp, M. C. Kung, H. Zhou, S. Nguyen, S. Ohyama, H. H. Kung, C. L. Marshall, Chem.. Eng. J. 99 (2004) 227.

“Nanotechnology: Applications and Potentials for Heterogeneous Catalysis”, Harold H. Kung and Mayfair C. Kung, Catalysis Today, 97 (2004) 219.

“Selective Lean NOx Reduction over Metal Oxides,” Mayfair C. Kung and Harold H. Kung, Topics in Catalysis, 28 (2004) 105.

“Nitrogen production efficiency for acetaldehyde and propionaldehyde in lean NOx reduction over anatase titania,” Angelina Kozlova, Hiu-Ying Law, Mayfair C. Kung*, and Harold H. Kung*, Catal. Lett. 95 (2004) 211.

“Activation of Au/g-Al2O3 Catalysts for CO Oxidation: Characterization by X-ray Absorption Near Edge Structure and Temperature Programmed Reduction,” C. K. Costello, J. Guzman, J. H. Yang, Y. M. Wang, M. C. Kung, B. C. Gates, and H. H. Kung, J. Phys. Chem. B, 108(33) (2004) 12529-12536

“Synergism between Pt/Al2O3 and Au/TiO2 in the low temperature oxidation of propene,” D.H. Kim, M.C. Kung, A. Kozlova, S.D. Yuan, and H.H. Kung, Catal. Lett. 98 (2004) 11.

“Observation of a Compensation Relation for Monomolecular Alkane Cracking by Zeolites: the Dominant Role of Reactant Sorption,” J.A. van Bokhoven, B.A Williams, W. Ji, D.C. Koningsberger, H.H. Kung, J.T. Miller, J. Catal. 224 (2004) 50.

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2003

“On the Potential Role of Hydroxyl Groups in CO Oxidation over Au/Al2O3,” C.K. Costello, J.H.Yang, H.-Y. Law, Y. Wang, J.-N. Lin, L.D. Marks, M.C. Kung, and H.H. Kung, Appl. Catal. A: General, 243 (1) (2003) 15-24.

“A Soft-Chemical Method to Synthesize Lewis Acid Surfaces of Aluminum Oxide.” Alexandr I. Kozlov, Mayfair C. Kung, Wen M. Xue, and Harold H. Kung, Angewandte Chem. Int. Ed., 42 (2003) 2415.

“Heterogeneous Catalysis: what lies ahead in nanotechnology,” Harold H. Kung and Mayfair C. Kung, Appl. Catal. A: General, 246 (2003) 193.

“Supported Au Catalysts for Low Temperature CO Oxidation,” H.H. Kung, M.C. Kung, and C.K. Costello, J. Catal. 216 (2003) 425.

“Catalytic Aminolysis of Epoxide by Alumina Prepared from Amine-Protected Al Precursor,” W.M. Xue, M.C. Kung, A.I. Kozlov, K.E. Popp, and H.H. Kung, Catal. Today, 85(24) (2003) 219-224.

“On the Potential Role of Hydroxyl Groups in CO Oxidation over Au/Al2O3,” C.K. Costello, J.H.Yang, H.-Y. Law, Y. Wang, J.-N. Lin, L.D. Marks, M.C. Kung, and H.H. Kung, Appl. Catal. A: General, 243 (1) (2003) 15-24.

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2002

“Effect of Vanadia on the Performance of NiO in Vapor-Phase Oxidative Decarboxylation of Benzoic Acid to Phenol,” S. Ohyama, K.E. Popp, M.C. Kung, and H.H. Kung, Catal. Commun. 3 (2002) 357.

“Effect of Preparation Method and Redox Treatment on the Reducibility and Structure of Supported Ceria-Zirconia Mixed Oxide,” A. Kozlov, D.H. Kim, A. Yezerets, P. Andersen, H.H. Kung, and M.C. Kung, J. Catal. 209 (2002) 417.

“Selective catalytic oxidation of CO in H2 over Au/-Al2O3,” C.K. Costello, H.-S. Oh, J.H. Yang, Y.M. Wang, S.R. Bare, H.H. Kung, H. H.M.C. Kung, Preprints of Symposia - American Chemical Society, Division of Fuel Chemistry (2002), 47(2), 669-670.

“Nature of the Active Site for CO Oxidation on Highly Active Au/γ-Al2O3,” C.K. Costello, M.C. Kung, H.-S. Oh, Y. Wang, and H.H. Kung, Appl. Catal. A: General, 232 (2002) 159-168.

“Selective Catalytic Oxidation of CO: Effect of Chloride on supported Au Catalysts,” H.-S. Oh, J.H. Yang, C.K. Costello, Y. Wang, S.R. Bare, H.H. Kung, and M.C. Kung, J. Catal., 210 (2002) 375.

“Chelate assisted preparation of ceria-zirconia,” D.H. Kim, B.J. Ahn, A. Kozlova, H.H. Kung, M.C. Kung, Preprints - American Chemical Society, Division of Petroleum Chemistry (2002), 47(4), 380-383

“The Expanding Role for Chemical Engineers in Transportation Motivated R&D”, H.H. Kung, and K.C. Taylor, AIChE J., 48 (2002) 2422.

“Effect of Vanadia on the Performance of NiO in Vapor-Phase Oxidative Decarboxylation of Benzoic Acid to Phenol,” S. Ohyama, K.E. Popp, M.C. Kung, and H.H. Kung, Catal. Commun. 3 (2002) 357.

“Alumina-Supported Catalysts for NO Reduction in an Oxidizing Atmosphere,” H.H. Kung and M.C. Kung, J. Chin. Inst. Chem. Engrs., 33 (2002) 53-59.

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2001

ATime-Resolved XANES Investigation of CuO/ZnO in the Oxidative Methanol Reforming Reaction,@ T.L. Reitz, P.L. Lee, K.F. Czaplewski, J.C. Lang, K.E. Popp, and H.H. Kung, J. Catal., 199 (2001) 193.

“Mechanistic Studies of the Catalytic Chemistry of NOx in Laboratory Plasma-Catalyst Reactors,” G.B. Fisher, C.L. DiMaggio, A. Yezerets, M.C. Kung, H.H. Kung, S. Baskaran, J.G. Frye, M.R. Smith, D.R. Herling, W.J. LeBarge, and J. Kupe, SAE paper 2000-01-2965.

Book review, Activation and catalytic reactions of saturated hydrocarbons in the presence of metal complexes edited by Alexander E. Shilov and Gregory B. Shul'pin. Appl. Catal., A (2001), 211(1), 131-132.

Book review, Spectroscopy of Transition Metal Ions on Surfaces, edited by: Pert M. Weckhuysen, Pascal Van Der Voort, Gabriela Catana. Appl. Catal., A (2001), 213(1), 141-142.

“Hydrocarbon Reaction Pathway in Selective NO Reduction over a Bifunctional SnO2/Al2O3 Catalyst”, Jong-H Lee, Alex Yezerets, Mayfair C. Kung, Harold H. Kung, Chem. Commun. 1404 (2001).

“Characterization by Ammonia Adsorption Microcalorimetry of Substantially Amorphous or Partially Crystalline Zeolite-based Materials of the NAS Type and Correlation with Catalytic activity,” C.P. Nicolaides, H.H. Kung, N.P. Makgoba, N.P. Sincadu and M.S. Scurrell, Appl. Catal. A: General, 223 (2001) 29.

“An Explanation for the Enhanced Activity for Light Alkane Conversion in Mildly Steam Dealuminated Mordenite: The Dominant Role of Adsorption,” J.A. van Bokhoven, M. Tromp, D.C. Koningsberger, J.T. Miller, J.A.Z. Pieterse, J.A. Lercher, B.A. Williams, and H.H. Kung, J. Catal., 202 (2001) 129.

“Regeneration of Au/Al2O3 Deactivated by CO Oxidation,” H.-S. Oh, C.K. Costello, C. Cheung, H.H. Kung, and M.C. Kung, Stud. Surf. Sci. Catal. 139 (2001) 375.

“Deactivation of CuO/ZnO and CuO/ZrO2 Catalysts for Oxidative Methanol Reforming,” E.D. Schrum, T.L. Reitz, and H.H. Kung, Stud. Surf. Sci. Catal. 139 (2001) 229.

“Oxidative Methanol Reforming over CuO/ZnO and CuO/ZrO2,” H.H. Kung, T.L. Reitz, E.D. Schrum, and M.C. Kung, ACS Fuel Chemistry Division Preprint, 46(2), (2001) 665-666.

“Catalysis by Microporous and Mesoporous Silica-Based Materials,” H.H. Kung, ACS Petroleum Division preprint, 46(3) (2001) 487.

“Catalysis Research of Relevance to Carbon Management: Progress, Challenges, and Opportunities,” H. Arakawa, M. Aresta, J. Armor, M. Barteau, E. Beckman, A. Bell, J. Bercaw, C. Creutz, E. Dinjus, D. Dixon, K. Domen, D. DuBois, J. Eckert, E. Fujita, D. Gibson, W. Goddard, D.W. Goodman, J. Keller, G. Kubas, H. Kung, J. Lyons, L. Manzer, T. Marks, K. Morokuma, K. Nicholas, R. Periana, L. Que, J. Rostrup-Nielson, W. Sachtler, L. Schmidt, A. Sen, G. Somorjai, P. Stair, B.R. Stuffs, and W. Tumas, Chem. Rev. 101 (2001) 825.

“Increasing Efficiencies for Hydrocarbon Activation,” H.H. Kung, in Carbon Management: Implications for R&D in the Chemical Sciences and Technology, National Research Council, National Academic Press, Washington, DC, 2001, p. 159.

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2000

AEnhanced Hydrocarbon Cracking Activity of Y Zeolites,@ H.H. Kung, B.A Williams, S.M. Babitz, J.T. Miller, W.O. Haag, and R.Q. Snurr,@ Topics in Catalysis, 10 (2000) 59.

ALean NOx Catalysis over Alumina-supported Catalysts,@ M.C. Kung and H.H. Kung, Topics in Catalysis, 10 (2000) 21.

ARole of Adsorption on Zeolite-Catalyzed Hydrocarbon Cracking Reactions,@ H.H. Kung, Res. Chem. Intermed. 26 (2000) 121.

ASelective CO Oxidation in a Hydrogen-Rich Stream over Au/γ-Al2O3 Catalysts,@ G.K. Bethke and H.H. Kung, Appl. Catal. A, 194 (2000) 43.

AIdentification of Vanadium Species Involved in Sequential Redox Operation of VPO Catalyst,@ D. Wang, H.H. Kung, and M.A Barteau, Appl. Catal. A: General 201 (2000) 203-213.

AAn explanation for the Differences in Catalytic Hydrocarbon Cracking Activity Between Steam and Chemically Dealuminated Y Zeolites,@ B.A. Williams, J.T. Miller, R.Q. Snurr, and H.H. Kung, Micorporous and Mesoporous Materials, 35-36 (2000) 61.

Book Review, Clean Synthesis Using Porous Inorganic Solid Catalysts and Supported Reagents. By James H. Clark and Christopher N. Rhodes (University of York). Royal Society of Chemistry: Cambridge. 2000. x + 107 pp. .pnd.55. ISBN 0-85404-526-0. J. Am. Chem. Soc. (2000), 122(48), 12067

AEvidence for Different Reaction Mechanisms as the Cause of the Enhanced Hydrocarbon Cracking Activity of Steamed Y Zeolites,@ B.A. Williams, W. Ji, J.T. Miller, R.Q. Snurr, and H.H. Kung, Proc. 12th intern. Cong. Catal., Stud. Surf. Sci. Catal. 130 (2000) 2453.

ABifunctional Nature of SnO2/γ-Al2O3 Catalysts in the Selective Reduction of NOx,@ A. Yezerets, Y. Zheng, P.W. park, M.C. Kung, and H.H. Kung, Proc. 12th Intern. Cong. Catal., Stud. Surf. Sci. Catal. 130 (2000) 629.

AEvidence of Different Reaction Mechanisms during the Cracking of n-Hexane on H-USY Zeolite,@ B.A. Williams, W. Ji, J.T. Miller, R.Q. Snurr, and H.H. Kung, Appl. Catal. A: General, 203 (2000) 179.

AOxidation of Butane over Vanadium-Phosphorus Oxides of P/V >=2,@ D. Wang, M.C. Kung, and H.H. Kung, Catal. Lett. 65 (2000) 9.

“Methanol Reforming over CuO/ZnO under Oxidizing Conditions,” T.L. Reitz, S. Ahmed, M. Krumpelt, R. Kumar, and H.H. Kung, Proc. 12th Intern. Congr. Catal., Stud. Surf. Sci. Catal. 130 (2000) 3645.

AOne-Step Synthesis of Ethyl Acetate from Ethene and Oxygen,@ M. Furuta, M.C. Kung, and H.H. Kung, Appl. Catal. A: General, 201 (2000) L9.

ACharacterization of CuO/ZnO under Oxidizing Conditions for the oxidative Methanol Reforming Reaction,@ T.L. Reitz, S. Ahmed, M. Krumpelt, R. Kumar, and H.H. Kung, J. Molec. Catal. A: Chemical, 162 (2000) 275.

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1995 - 1999

AThe Roles of Acid Strength and Pore Diffusion in the Enhanced Cracking Activity of Steamed Y Zeolites,: B.A. Williams, S.M. Babitz, J.T. Miller, R.Q. Snurr, and H.H. Kung, Appl. Catal. A: General, 177, 161 (1999).

ALean NOx Catalysis over Sn/γ-Al2O3 Catalysts,@ M.C. Kung, P.W. Park, D.-W. Kim, and H.H. Kung, J. Catal., 181, 1 (1999).

AMonomolecular Cracking of n-Hexane over Y, MOR, and ZSM-5,@ S.M. Babitz, B.A. Williams, J.T. Miller, R.Q. Snurr, W.O. Haag, and H.H. Kung, Appl. Catal. A, 179, 71 (1999).

ATowards Understanding the Enhanced Cracking Activity of Steamed Y Zeolites,@ H.H. Kung, B.A. Williams, S.M. Babitz, J.T. Miller and R.Q. Snurr, Catal. Today, 52 (1999) 91.

ACatalytic NOx Reduction with Hydrocarbon over Alumina-Supported Catalysts,@ M.C. Kung, H.H. Kung, K.A. Bethke, J.-Y. Yan, and P.W. Park, Fundamental and Applied Aspects of Chemically Modified Surfaces, Ed. J.P. Blitz and C.B. Little, Royal Society of Chemistry, (Proc. 7th Intern. Symp. On Chemically Modified Surfaces), 1999, p. 246.

AAn Explanation for the Enhanced Hydrocarbon Cracking Activity of Steamed Zeolites,@ B.A. Williams, S.M. Babitz, J.T. Miller, R.Q. Snurr, and H.H. Kung, Proc. 12th Intern. Zeolite Conference, ed. M.M.J. Treacy, B.K. Marcus, M.E. Bisher, and J.B. Higgins, Materials Research Society publ., 1, 465 (1999).

APlamsa-assisted Catalytic Reduction of NOx,@ B.M. Penetrante, R.M. Brusasco, B.T. Merritt, W.J. Pitz, G.E. Vogtlin, E.N. Balko, K.E. Voss, C.Z. Wen, M.C. Kung, and H.H. Kung, SAE paper no. 98FL577 (1998).

AIntrinsic Activity and Pore Diffusion Effect in Hydrocarbon Cracking in Steamed Y Zeolite,@ H.H. Kung, Proc. Intern. Symp. Reaction Kinetics and the Develop. of Catalytic Processes, 1999

ACharacterization of SnO2/Al2O3 Lean NOx Catalysts,@ P.W. Park, H.H. Kung, D.-W. Kim, and M.C. Kung, J. Catal. 184 (1999) 440.
AEffect of Framework Al Content on HY Acidity and Cracking Activity,@ M.A. Kuehne, S.M. Babitz, H.H. Kung, and J.T. Miller, Appl. Catal. A, 166, 293 (1998).

ASurface Equilibration in Adsorption Microcalorimetry of Bases on H-USY,@ S.M. Babitz, B.A. Williams, M.A. Kuehne, H.H. Kung, and J.T. Miller, Thermochim. Acta. 312, 17 (1998).

ASupported VPO Catalysts for Selective Oxidation of Butane. III Effect of Preparation Procedure and SiO2 Support,@ J.M.C. Bueno, G.K. Bethke, M.C. Kung, and H.H. Kung, Catalysis Today 43, 101 (1998).

ANO Decomposition on Na-Promoted Co3O4 Catalysts,@ P. Park, J.-K. Kil, H.H. Kung, and M.C. Kung, Catalysis Today 42, 57 (1998).

AEffect of Pt Dispersion on the Reduction of NO by Propene over Alumina-Supported Pt Catalysts under Lean-burn Conditions,@ J.-H. Lee and H.H. Kung, Catal. Lett. 51, 1 (1998).

ASynergistic Effect in Lean NOx Reduction by CH4 over Co/Al2O3 and H-Zeolite Catalysts,@ J.-Y. Yan, H.H. Kung, W.M.H. Sachtler, and M.C. Kung, J. Catal., 175, 294 (1998).

"Effect of Cu Loading and Addition of Modifiers on the Stability of Cu/ZSM-5 in Lean NOx Reduction Catalysis," J.Y. Yan, W.M.H. Sachtler, and H.H. Kung, Catal. Today, 33, 279 (1997).
"Supported VPO Catalysts for Selective Oxidation of Butane. II: Characterization of VPO/SiO2 Catalysts," K.E. Birkeland, S. Babitz, G. Bethke, H.H. Kung, G.W. Coulston, and S.R. Bare, J. Phys. Chem.B, 101, 6895 (1997).

AVapor Phase Aldol Condensation of Acetaldehyde on Metal Oxide catalysts,@ W. Ji, Y. Chen, and H.H. Kung, Applied Catal. A, 161, 93 (1997).

"Oxidative Dehydrogenation of Alkanes over Vanadium-Magnesium-Oxides," H.H. Kung, and M.C. Kung, Appl. Catal. A, 157, 105 (1997).

"The Kinetic Significance of V(5+) in n-Butane Oxidation catalyzed by Vanadium Phosphate,@ G.W. Coulston, S.R. Bare, H.H. Kung, K. Birkeland, G. Bethke, R. Harlow, and P.L. Lee, Science, 275, 191 (1997).

"Effect of Steam Dealumination on H-Y Acidity and 2-Methylpentane Cracking Activity," M.A. Kuehne, H.H. Kung, and J.T. Miller, J. Catal., 171, 293 (1997).

"The Role of Lewis Acidity in the Deactivation of USY Zeolites during 2-Methylpentane Cracking," S.M. Babitz, M.A. Kuehne, H.H. Kung, and J.T. Miller, I&EC Research, 36, 3027 (1997).

"Supported Ag Catalysts for the Lean Reduction of NO with C3H6," K.A. Bethke and H.H. Kung, J. Catal. 172, 93 (1997).

"Effect of Nature of Silica and P/V Ratio on Silica-supported VPO Catalysts for the Selective Oxidation of Butane," J.M.C. Bueno, G.K. Bethke, M.C. Kung, and H.H. Kung, Proc. 9th Brazilian Congress on Catalysis, 2, 401 (1997).

"Alkane Oxidation over Bulk and Silica-Supported VO(H2PO4)2-Derived Catalysts," G.K. Bethke, D. Wang, J.M.C. Bueno, M.C. Kung and H.H. Kung, Proc. 3rd World Congress on Oxidation Catalysis, Studies Surf. Sci. Catal., ed. R.K. Grasselli, S.T. Oyama, A.M. Gaffney, and J.E. Lyons, Elsevier Sci. Publ., vol. 110, p. 453 (1997).

ACatalysis for Lean NOx Reduction: Structure-Property Relationship,@ M.C. Kung, K.A. Bethke, J. Yan, J.-H. Lee, and H.H. Kung, Appl. Surf. Sci., 121/122, 261 (1997).

ACo/Al2O3 Lean NOx Reduction Catalyst,@ J.-Y. Yan, M.C. Kung, W.M.H. Sachtler, and H.H. Kung, J. Catal., 172, 178 (1997).

AReduction of NOx in an Oxidizing Atmosphere with Hydrocarbons,@ H.H. Kung and M.C. Kung, Proc. 9th Brazilian Congress on Catalysis, 2, 498 (1997).

"Low Temperature NOx Removal for Flue Gas Cleanup," B.W.-L. Jang, J.J. Spivey, M.C. Kung, and H.H. Kung, Energy and Fuels, 11(2), 299 (1997).

AA Consistent Correlation Approach to Single File Diffusion with Reaction,@ M.S. Okino, R.Q. Snurr, H.H. Kung, J. Ochs, and M.L. Mavronouniotis, J. Chem. Phys. 111 (1999) 2210.
"Catalytic Lean NOx Reduction over Mixed Metal Oxides, and its Common Features with Selective Oxidation of Alkanes," H.H. Kung and M.C. Kung, Catal. Today, 30, 5 (1996).

"Deactivation of Cu/ZSM-5 Catalysts for Lean NOx Reduction - Characterization of Changes of Cu States and Zeolite Support," J.Y. Yan, G.-D. Lei, W.M.H. Sachtler, and H.H. Kung, J. Catal., 161, 43 (1996).

"Preparation of Oxide Catalysts and Catalyst Supports - a Review of Recent Advances," H.H. Kung and E.I. Ko, Chem. Eng. J., 64, 203 (1996).

AUnderstanding the Surface Chemistry of (VO)2P2O7; Butane Oxidation on Silica-Supported Vanadium-Phosphorus Oxides,@ Prepr. - Amer. Chem. Soc., Div. Pet. Chem., 41, 197 (1996).

"Selective Reduction of NOx by Propene over Au/γ-Al2O3 Catalysts," M.C. Kung, J.-H. Lee, A. Chu-Kung, and H.H. Kung, Proc. 11th Intern. Cong. Catal., J.W. Hightower, W.N. Delgass, E. Iglesia, and A.T. Bell, ed., 1996, p.701.

"Effect of SiO2 Support on the Preparation of VPO Catalysts for n-Butane Oxidation," J.M.C. Bueno, G.K. Bethke, M.C. Kung, and H.H. Kung, Proc. XV Simposio Iberamericano de Catalisis, Cordoba, Argentina, Sept. 16-20, 1996.

"Low Temperature NOx Removal for Flue Gas Cleanup," B.W.-L. Jang, J.J. Spivey, M.C. Kung, and H.H. Kung, Prepr. Pap.- Amer. Chem. Soc., Div. Fuel Chem., 41, 308 (1996).

AAcidity and Cracking Activity Changes during Coke Deactivation of ultrastable Y Zeolite,@ P.D. Hopkins, J.T. Miller, B.L. Meyers, G.J. Ray, R.T. Roginski, M.A. Kuehne, and H.H. Kung, Appl. Catal. A: General 136 (1996) 29.

"Selective Oxidation of Pentane over Al2O3- and SiO2-Supported Vanadia Catalysts," P.M. Michalakos, K. Birkeland, and H.H. Kung, J. Catal., 158, 349 (1996).

"Synthesis of Vanadium Phosphorus Oxide Catalysts by Aerosol Processing," P.M. Michalakos, H.E. Bellis, P. Brusky, H.H. Kung, H.Q. Li, W.R. Moser, W. Partenheimer, and L.C. Satek, Ind. Eng. Chem. Res. , 34, 1994 (1995).

"Catalytic Reduction of Nitric Oxide with Propene over Coprecipitated Cu-ZrO2 and Cu-Ga2O3." M. Kung, K. Bethke, D. Alt, B. Yang, and H. Kung, in Reduction of Nitrogen Oxide Emission, ACS Symposium Series No. 587, U. Ozkan, S. Agrawal, and G. Marcelin ed., 1995, p.96.

"The Role of NO2 in the Reduction of NO by Hydrocarbon over Cu-ZrO2 and Cu-ZSM-5 Catalysts," K.A. Bethke, C. Li, M.C. Kung, B. Yang, and H. H. Kung, Catal. Lett. 31, 287 (1995).

"Detection of Surface CN and NCO Species as Reaction Intermediates in Catalytic Lean NOx Reduction," C. Li, K.A. Bethke, H.H. Kung, and M.C. Kung, J. Chem. Soc. Chem. Commun., 813 (1995).

"Low Temperature Selective Catalytic reduction of NO by Hydrocarbons in the Presence of O2 and H2O," B.W.-L. Jang, J.J. Spivey, M.C. Kung, B. Yang, and H.H. Kung, in Reduction of Nitrogen Oxide Emission, ACS Symposium Series No. 587, U. Ozkan, S. Agrawal, and G. Marcelin ed., 1995, p. 83.

"Metal Oxide Catalysts for Lean NOx Reduction." K.A. Bethke, M.C. Kung, B. Yang, M. Shah, D. Alt, C. Li, and H.H. Kung, Catalysis Today, 26, 169 (1995).

ALean NOx Reduction over Au/γ-Al2O3," M.C. Kung, J.-H. Lee, J. Brooks, and H.H. Kung, Prepr. Pap-Amer. Chem. Soc., Div. Fuel Chem., 40, 1073 (1995).

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