Current Group Members

Group Ph. D. Alumni

Group M. S. Alumni

Group M. Eng. Alumni (since 2011)

Dr. Lund

Michael Conrad Hausladen

Mike Hausladen completed his M. S. in 1992 and his Ph. D. in 1996. Mike's Master's research involved measuring the rate of permeation of gases through polyimide films. In his Ph. D. work, Mike studied the use of zeolites as selective catalysts for the chlorination of aromatics.

Papers

“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]

“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]

“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]

“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]

“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]

Presentations

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

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

Dissertation

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]

Thesis

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]