美国密歇根大学：化学工程系
【简介】
Research Areas:
Life Sciences and Biotechnology
Burns, Gulari, Linderman, Mooney, Wang

Energy and Environment
Fogler, Gulari, Savage, Schwank, Thompson,Yang

Complex Fluids and Nanostructured Materials
Bike, Glotzer, Larson, Solomon, Ziff

Notable Events in the History of Chemical Engineering at The University of Michigan
1898
The Regents approve Dean Charles E. Greene's request for the first course of study at the University of Michigan leading to a bachelor of science in Chemical Engineering. The coursework, second only in the nation, is directed by Professor Edward DeMille Campbell, with cooperation from the Chemistry Department.

1900
The Michigan Gas Association establishes a fellowship in chemical engineering that becomes the longest running fellowship of its kind. With this fellowship, Alfred H. White was to make major contributions to the manufactured gas industry.

The old Chemistry Building filled to capacity, chemical engineering work continues in what would later become the Economics Building. The space provided a laboratory for gas analysis and photometry, a balance room for quantitative analysis, and areas for research work and metallography.

1903
Five students become the first class to graduate with degrees in Chemical Engineering from the University of Michigan. Requirements for graduation at that time were 130 hours of credit and a thesis.

1908
The importance of the emerging program is recognized with Alfred H. White's promotion to Junior Professor of Chemical Engineering, and by the separate listing of chemical engineering courses, including metallurgy, in the College of Engineering Announcement.

1909
A burgeoning department now graduates an average of twenty students a year. The department is allotted ample space in the newly constructed Chemistry Building. Staff now consists of Professors Campbell and A.H. White, and Instructor Karl Wilhelm Zimmerschied, who would further develop the course in metallography and extend the coursework in extractive metallurgy.

1911
The Mentor Program of faculty counseling and leadership is established by Dean Cooley. 1920 By 1920-21, more than one hundred U-M sophomores choose chemical engineering as their field of specialization.

1922
The first student chapter of the American Institute of Chemical Engineers is established on the Michigan campus.

1923
G.G. Brown organizes the first U-M graduate course in the field of thermodynamics.

1924
Chemical Engineering moves to the newly constructed East Engineering Building, where new facilities enhance the rapidly emerging Ph.D.program.

1925
The field of Chemical Engineering is recognized nationally as a branch of engineering. The University of Michigan is one of 14 accredited curriculums listed by the AIChE. Also in this year, The American Society for Metals establishes the Edward DeMille Campbell lecture, to honor the memory of this nationally recognized pioneer in theoretical metallurgy.

1927
A.E. White and C. Upthegrove contribute to a symposium on metals and alloys at elevated temperatures, sponsored by the A.S.T.M. and the A.S.M.E.
While some work had been done previously, this marked the real beginning of a research program under A.E. White's direction that would bring the University of Michigan recognition throughout the world. This program, through the Engineering Research Institute, would also establish a laboratory for the study of metals at elevated temperatures, which by 1954 was one of the largest and best of its kind.

1931
Professors Badger and McCabe publish Elements of Chemical Engineering, which soon becomes the most widely used text in the field.

1934
U-M's Chemical Engineering Department is ranked by the American Council on Education as one of the top three "most distinguished" programs in the nation. Criteria included the adequacy of staff and equipment to prepare candidates for the doctorate.

1935
The College creates two separate programs in chemical engineering and metallurgy. The department name is changed to Chemical and Metallurgical Engineering.

By 1935, 20 percent of all graduate students in the United States working toward the master's degree in chemical engineering, and 13 percent of those studying for the doctorate, are enrolled at the University of Michigan.

1948
The Department celebrates its 50th Anniversary. Over two hundred chemical and metallurgical engineering alumni from across the nation attend the gala celebration.

In its 50 years, the department had enrolled a total of 3,876 undergraduate students and granted 2,151 bachelor's degrees; in the Graduate School, 940 higher degrees had been granted.

1949
Graduate student enrollment reaches a peak of 235 students.

1950
The landmark text, Unit Operations, a collaborative U-M work prepared under the leadership of Professor G.G. Brown, is published. The book is promptly adopted by 115 institutions, including almost all the departments of chemical engineering in the United States.

1952
In the twenty-year period from 1932 to 1952, 137 doctoral degrees are granted in chemical or metallurgical engineering.

1954
At the U-M campus, Professor Katz leads the first national conference on the peaceful uses of nuclear energy.

By this year, chemical and metallurgical engineering staff had authored seventeen books and more than seven hundred publications.

1957
The G.G. Brown Building opens, offering new, large-scale laboratory facilities.
1959-63
A project on the use of computers in engineering education, funded by the Ford Foundation and the National Science Foundation -- the largest project in U-M's chemical engineering history.

1971
After a liaison of 36 years, the combined Chemical and Metallurgical Engineering Department separates into two: Chemical Engineering, and Materials & Metallurgical Engineering.
By this date, the Department of Chemical Engineering has 17 full-time faculty members (including joint appointments), and an enrollment of 170 undergraduates and 55 graduate students. The regular chemical engineering curriculum offers areas of specialization that include biochemical, polymer, petroleum, electrochemical, materials, environmental, control, and computers and systems engineering.

Also at this time, the construction of a Water Resources building begins, providing additional facilities for microbiological and other biologically oriented laboratories.

1979
A growing Department of Chemical Engineering numbers twenty-three full-time faculty members, and Emeritus Professor Donald Katz.

Research laboratories supporting a broad range of graduate studies now include:
- Applied Polymer (J.H. Hand)
- Biochemical Engineering (L.L. Kempe and H. Wang)
- Bioengineering (J.S. Schultz)
- Catalysis and Spectroscopy (J. Schwank)
- Ecosystem Simulation (R.H. Kadlec)
- Electrochemical (F.M. Donahue)
- Heat Transfer (E.H. Young)
- Laser Light Scattering (E. Gulari)
- Oil Shale Research (G.B. Williams)
- Petroleum Research (M.R. Tek)
- Sonochemical Engineering (H.S. Fogler)
- Thermal Properties of Fluids (J.E. Powers)

1982
The department moves to the newly constructed H.H. Dow Building on North Campus, built through a $5.5 million combined donation from the Dow Foundation and the Towsley Foundation -- one of the largest gifts in the history of the University of Michigan.

1987
The department establishes its first graduate scholarship that is supported by annual donations from alumni/alumnae.

Department of Chemical Engineering, 2300 Hayward St.
3074 H.H. Dow Building, Ann Arbor, MI 48109-2136
Phone (734) 764-2383
Fax (734) 763-0459

美国蒙大拿州立大学：化学与生物化学系
【简介】
Faculty Listed by Division:

Organic/Inorganic
Edwin H. Abbott Inorganic Chemistry
Mary J. Cloninger Bioorganic and Macromolecular Chemistry
Trevor Douglas Biomineralization, Bio-Materials, and Bio-Inorganic Chemistry
Paul A. Grieco Organic Chemistry
Tom Livinghouse Organic and Applied Organometallic Chemistry
Cynthia K. McClure Synthetic Organic Chemistry
Charles W. Spangler Design of New Polymers for Photonics Applications

Physical/Analytical
John R. Amend Analytical Chemistry and Chemical Education
Patrik Callis Physical, Quantum and Biophysical Chemistry
Eric Grimsrud Analytical and Physical Chemistry
Timothy K. Minton Physical Chemistry, Gas-Surface Reaction Dynamics
David J. Singel Physical and Biophysical Chemistry
Lee H. Spangler Physical Chemistry, Molecular Spectroscopy
Jan Sunner Analytical Physical Chemistry
Robert K. Szilagyi Biophysical, Computational, Organometallic Applications of Synchrotron Radiation

Biochemistry
Valérie Copié Probing Protein Structure and Dynamics by NMR
David M. Dooley Metalloprotein Structure, Function and Mechanism
Edward Dratz Biophysical Chemistry and Biochemistry
Martin Lawrence Protein Crystallography
Brenda D. Spangler Molecular Recognition; Bacterial Protein Toxins
John W. Peters Enzyme Structure and Mechanism
Martin Teintze Membrane Biochemistry and Biophysics

Department of Chemistry & Biochemistry, Montana State University
108 Gaines Hall
P.O. Box 173400
Bozeman, MT 59717
Phone: 406 994 4801
Fax: 406 994 5407
Email: chemistry@chemistry.montana.edu

美国马萨诸塞大学：化学系
【简介】
The University of Massachusetts Department of Chemistry exemplifies the central character of chemistry. Focus areas of research in the Department are highly interdisciplinary, including chemistry of materials, sophisticated methods of analysis, molecular recognition, and the chemistry/biology interface. The Department is committed to innovative methods of teaching, and many faculty are involved in the development and implementation of computer-based instruction. In addition, the Department is a major innovator in the new Commonwealth Honors College at the University.

美国马萨诸塞大学：化学工程系
【简介】
The Department of Chemical Engineering at the University of Massachusetts Amherst conducts research and teaching at an advanced level in a broad spectrum of topics that range from large-scale systems (e.g., conceptual design and process control) to micro-scale phenomena that require treatment by the methods of statistical thermodynamics and computational materials science and engineering.

Faculty:

Surita Bhatia - Polymers and colloids
Wm. Curtis Conner, Jr. - Catalysis
Efrosini Kokkoli - Interfacial Phenomena, Bioengineering, Materials
Michael F. Malone (Department Head) - Design, separations
Peter A. Monson (Undergraduate Program Director) - Statistical mechanics, materials modeling
Susan C. Roberts - Bioengineering
Michael Tsapatsis (Graduate Program Director) - Catalysis, materials
John Sherman - Materials, separations, and catalysis
James J. Watkins (Honors Coordinator) - Polymer engineering, supercritical fluids processing
Phillip R. Westmoreland - Experimental kinetics, molecular modeling
H. Henning Winter - Polymer rheology
Alex Z. Zheng - Process control

Emeritus Faculty:

James M. Douglas, Professor Emeritus - Design
John W. Eldridge, Professor Emeritus - Catalysis
Vladimir Haensel, Professor Emeritus - Catalysis
Robert L. Laurence - Diffusion, polymerization reaction engineering
Marcel Vanpee, Professor Emeritus - Combustion, spectroscopy

Adjunct Faculty

Scott M. Auerbach (Chemistry) - Catalysis, molecular modeling
Michael F. Doherty (University of California, Santa Barbara) - Design, separations
Richard J. Farris(Polymer Science and Engineering) - Polymer characterization
David A. Hoagland (Polymer Science and Engineering) - Polymer rheology
Robert W. Lenz (Emeritus; Polymer Science and Engineering) - Polymer synthesis
Ka M. Ng (Hong Kong University of Science and Technology) - Design, reaction engineering
Dionisios G. Vlachos - (University of Delaware) Reaction engineering, materials modeling

美国马里兰大学：生物技术研究所UMBI (University of Maryland Biotechnology Institute)
【简介】
The University of Maryland Biotechnology Institute is a hub of intensive study into the basic science of biotechnology and its application to human health, the marine environment, agriculture, and protein engineering/structural biology.

Established in 1985 by the State of Maryland, the UMBI's five centers conduct research and training that provide a core of expertise and facilities to advance the state's scientific and economic development.

UMBI emphasizes collaboration with industry, other research institutions, and federal laboratories; and sponsors training workshops, short courses, symposia, and seminars throughout the year.