C&EN logo The Newsmagazine of the Chemical World
Home Current Issue ChemJobs Join ACS
Support
Latest News
Business
Government & Policy
Science/Technology
Careers and Employment
ACS News
topics
   
Support
 
Support
How to log in
Contact Us
Site Map
   
About C&EN
About the Magazine
How to Subscribe
How to Advertise
Chemcyclopedia

Latest News RSS Feed

latest news RSS feedWhat is this?

   
Join ACS
Join ACS
  Latest News  
  April 5,2004
Volume 82, Number 14
p. 14
 

ACS AWARDS

  OLAH WINS 2005 PRIESTLEY MEDAL
Nobel Laureate's research driven by questions of future global energy
 

  MITCH JACOBY  
   

 
  George A. Olah, the Donald P. & Katherine B. Loker Distinguished Professor of Organic Chemistry at the University of Southern California (USC), has been named the 2005 Priestley Medalist. The annual award, which recognizes distinguished services to chemistry, is the American Chemical Society's highest honor.

8214notw5_olah
Olah
USC PHOTO
Olah, who is director of USC's Loker Hydrocarbon Research Institute, is known throughout the chemistry community for his contributions to organic synthesis and mechanistic chemistry and most notably for his work in carbocation chemistry, for which he won the 1994 Nobel Prize in Chemistry.

"I'm very appreciative of the honor," Olah said at last week's ACS national meeting in Anaheim, Calif., where the announcement was made. The 76-year-old chemist is particularly pleased, he remarked, "because the award acknowledges work done over a long period of time."

Indeed, during the course of a chemistry career that's now in its sixth decade, Olah and coworkers have made numerous advances in fundamental and applied chemistry. The USC researcher is well known, for example, for developing a variety of superacids--combinations of Lewis and Brønsted acids such as HF-SbF5--that are billions of times stronger than sulfuric acid. Using superacids as solvents for alkyl halides and in ion-generating reactions, Olah developed a technique to extend the lifetimes of carbocations and other typically short-lived ionic species so they could be probed directly using nuclear magnetic resonance spectroscopy, X-ray photoelectron spectroscopy, and other methods.

"The techniques pioneered by Olah for the direct spectroscopic observation of carbocations are now being applied in organometallic, synthetic organic, bioorganic, and industrial chemistry," remarks University of Utah chemistry professor Peter J. Stang. He adds that Olah's work was the inspiration that led to thousands of publications from numerous laboratories worldwide, "making the study of reactive intermediates one of the most active fields of investigation in all of chemistry in the last 40 years."

In addition to pioneering work with superacids, Olah is recognized for developing novel electrophiles, including doubly electron-deficient species that have played key roles in Friedel-Crafts alkylations and other reactions. And the USC scientist is credited with developing safe and environmentally benign procedures for preparing high-octane fuels.

For years, Olah's research program has been driven by questions regarding future global energy sources. Unlike some proponents of the hydrogen economy, Olah sees great advantages in using methanol--not hydrogen--to store and dispense energy.

Working toward his vision of a "methanol economy," Olah and coworkers at USC and the Jet Propulsion Laboratory in Pasadena, Calif., have developed a direct methanol fuel cell for generating electrical power from methanol without first producing hydrogen.

More than 50 years after beginning a professorship at Budapest Technical University in Hungary, Olah remains active and enthusiastic about chemistry research. "The work I'm doing now may be some of the most interesting and perhaps most significant work I've ever done," he said.

 
     
  Chemical & Engineering News
ISSN 0009-2347
Copyright © 2004
 


 
 
E-mail this article
to a friend
Print this article
E-mail the editor