CAMMP - Center for Advanced Microgravity Processing

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Michael P. Manning, Ph.D.

Senior Research Scientist
mmanning@coe.neu.edu

Education:

Sc.D., 1976, Chemical Engineering
Massachusetts Institute of Technology

B.S., 1967, Chemical Engineering
University of Notre Dame du Lac

Employment History:

Northeastern University, Center for Advanced Microgravity Materials Processing

2001 - Present, Senior Research Scientist

Northeastern University, Department of Chemical Engineering

1998 - 2001, Visiting Associate Professor

ENOX Technologies, Massachusetts

1991 - 1998, Director of Research

MatTek Corporation, Massachusetts

1985 - 1991, CEO

MIT, Department of Chemical Engineering

1978 - 1985, Assistant and Associate Professor

MIT, School of Chemical Engineering Practice

1976 - 1978, Director

United States Navy, USS Little Rock (CLG-4)

1969 - 1972, Ensign, Lieutenant JG, Lieutenant

Research Interests:

Industrial Chemistry and Catalysis
Process Design and Development

Publications (CAMMP-Related)

Manning, M.P., Miller, R.P., McLaughlin, G., Sacco, A., Akata, B., Bazzana, S., Jirapongphan, S.S., Mendonza, A.M., Yilmaz, B., Warzywoda, J., and Sacco, Jr., A., "Zeolite Crystal Growth on the International Space Station," Proceedings of the 14th International Zeolite Conference, Editors: E. van Steen, L.H. Callanan and M. Claeys, ISBN: 0-958-46636-X, 147-154 (2004).

Manning, M.P., Warzywoda, J., Karahan, O., and Sacco, Jr., A., "Enantioselective adsorption of hydrobenzoin on zeolite Beta," Proceedings of the 14th International Zeolite Conference, Editors: E. van Steen, L.H. Callanan, and M. Claeys, ISBN: 0-958-46636-X, pp. 1957-1960 (2004).

Patents:

Method and adsorbent to separate mixtures of enantiomers
Authors: Ozgur Karahan, Juliusz Warzywoda, Michael P. Manning, Albert Sacco Jr.
Description: This invention is related to the generation of a chiral stationary phase. The chiral stationary phase obtained by the process of this invention is useful to resolve mixtures of enantiomers (chiral separation) by adsorption.
Expected Issuance: 2005

Method of Making Titanosilicate ETS-4 suitable for quantum wire applications
Authors: Bilge Yilmaz, Juliusz Warzywoda, Michael P. Manning, Albert Sacco, Jr
Description: This invention relates to methods for preparing crystalline titanosilicate molecular sieve ETS-4 with predictably and precisely controlled characteristics and properties. The ETS-4 product obtained by this invention can be utilized as quantum wires due to its modified characteristics. Utilizing this invention ETS-4 product can be tailored for the specific needs of any application.
Expected Issuance: 2005

Professional Affiliations:

Materials Research Society
American Institute of Chemical Engineers (AIChE)