Presented by the Chicago Section of the American Chemical Society |
---|
Gibbs Medal Awardee: | |
---|---|
Professor Ronald Breslow | |
The Samuel Latham Mitchill Professor of Chemistry and University Professor Department of Chemistry Columbia University New York, NY |
Date:  Friday, May 21, 2004 Location:   North Shore Lights at The Hotel Moraine
700 North Sheridan Road
Highwood, Illinois
Time:6:00 pm Reception, 7:00 pm Dinner, 8:30 pm Presentation
Introducing Professor Breslow: Madeleine Jacobs, Executive Director,
American Chemical Society
Presentation of the medal: Dr. Charles P. Casey, President, American
Chemical Society
Cost: 
$40.00 for members of ACS and their guests, $42.00 for non-members,
$20 for students or unemployed
The deadline to mail in your registration for the dinner has passed. Please REGISTER ON LINE !
The Chicago Section acknowledges with much gratitude the generous contributions from the following organizations to support the Willard Gibbs Award program.
The History of the Willard Gibbs Award |
---|
Biographical Sketch:
Ronald Breslow was born in Rahway, New Jersey on March 14, 1931. He received his undergraduate and graduate training at Harvard University, where he did his Ph.D. research with Professor R.B. Woodward. He then spent a year in Cambridge, England as a postdoctoral fellow with Lord Todd, and came to Columbia University in 1956 as Instructor in Chemistry. He is now the Samuel Latham Mitchill Professor of Chemistry at Columbia and one of twelve University Professors, and a former Chairman of the Department.
Professor Breslow's research interests can be described generally as involving the design and synthesis of new molecules with interesting properties, and the study of these properties. Examples include the cyclopropenyl cation, the simplest aromatic system and the first aromatic compound prepared with other than six electrons in a ring.
His work establishing the phenomenon of anti-aromaticity has involved the synthesis of novel molecules, as well as their study. Even in work on purely mechanistic questions, such as his discovery of the chemical mechanism used by thiamine (vitamin B-1) in biochemical reactions, the synthesis and study of novel molecules played an important role.
Although he continues his interest in unusual conjugated systems, his major emphasis in recent years has been on the synthesis and study of molecules that imitate enzymatic reactions. This work has included the development of remote functionalization reactions and the development of artificial enzymes.
Recently he has developed a new group of cytodifferentiating agents with potential use in cancer chemotherapy. He is the author of over 400 publications.
Awards and Professional Service:
Professor Breslow is a member of the U.S. National Academy of Sciences (Chairman of the Chemistry Division 1974-77), of the American Academy of Arts and Sciences, and of the American Philosophical Society (member of the Council, 1987-92), as well as other scientific societies including the New York Academy of Sciences. He is a Foreign Fellow of the Indian National Science Academy, an Honorary Member of the Korean Chemical Society, an Honorary Member of the Royal Society of Chemistry of Great Britain, a Foreign Member of the Royal Society of Britain, a Fellow of the World Innovation Foundation, an Honorary Member of the Chemical Society of Japan, and an Honorary Professor of the University of Science and Technology of China.
He has been the Chairman of the Board of Scientific Advisors of the Alfred P. Sloan Foundation, and a member of the Board of Trustees of Rockefeller University. He is on the Editorial Board of a number of Scientific Journals, and has held over 200 named and visiting Professorships.
His major scientific awards include the American Chemical Society Award in Pure Chemistry (1966), the Fresenius Award of Phi Lambda Upsilon (1966), the Baekeland Medal (1969), the Centenary Medal (1972), the Harrison Howe Award (1974), the Remsen Prize (1977), the Roussel Prize in Steroids (1978), the James Flack Norris Prize in Physical Organic Chemistry of the American Chemical Society (1980), the Richards Medal (1984), the Arthur C. Cope Award (1987), the Kenner Award (1988), the Nichols Medal (1989), the National Academy of Sciences Award in Chemistry (1989), the Allan Day Award (1990), the Paracelsus Award and Medal of the Swiss Chemical Society (1990), and the U.S. National Medal of Science (1991). He was named one of the top 75 contributors to the chemical enterprise in the past 75 years by Chemical & Engineering News (1997), and won the Priestley Medal (1999). In 2000 he won the New York City Mayor's Award in Science and in 2002 he has received the ACS Bader Award in Bioorganic or Bioinorganic Chemistry and the Esselen Award for Chemistry in the Public Interest. In 2003 he received the Robert Welch Award in Chemistry.
He has also received the Mark Van Doren Medal of Columbia University and the Columbia University Great Teacher Award. He was President-Elect of the American Chemical Society (1995), was ACS President (1996), and was ACS Immediate Past President (1997).
From the North or South: Take I-294 (the TriState Tollway) to Route 22. Exit east, take it to Route 41 (Skokie Hwy). Turn north to the next exit, Old Elm. Go east on Old Elm to Sheridan Road (just across some railroad tracks). Turn right/south for 3/4 mile. The hotel is on the right.
From Downtown: Take the Kennedy Expressway north. At the split, follow the Edens Expressway, which turns into Skokie Highway past Lake Cook Road. Continue north to Old Elm Road. Turn right/east on Old Elm and follow the directions above to the hotel.
Parking:   Free
- Lobster Bisque
- Salad Maison with a field of greens, peppered orange, and tomato
- WITH A CHOICE OF:
Filet Mignon accented by Grilled Jumbo Shrimp OR
Broiled Norwegian Salmon dressed with Lemon Lime Herb Sauce- Duchess Potato
- Steamed Vegetable Medley
- Flourless Chocolate Torte
- A vegetarian entrée of a Portabello Mushroom Tower atop Linguine Pasta adorned with Red and Green Bell Peppers, Onions, and Fresh Spinach is available on request.