John F. Hartwig

American chemist
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Born:
August 7, 1964, Elmhurst, Illinois, U.S. (age 60)

John F. Hartwig (born August 7, 1964, Elmhurst, Illinois, U.S.) is an American chemist known for his work in organic synthesis.

When Hartwig entered college, he originally wanted to study electrical engineering, but he changed his major to chemistry after taking his first class in the subject. He graduated with a bachelor’s degree in chemistry from Princeton University in 1986. Four years later he received a doctorate in chemistry from the University of California at Berkeley.

From 1990 to 1992 Hartwig had a postdoctoral fellowship, which was sponsored by the American Cancer Society, at the Massachusetts Institute of Technology (MIT). He joined the faculty at Yale University as an associate professor in 1992 and became a full professor in 1998. In 2006 he moved to the University of Illinois at Urbana-Champaign and in 2011 to the University of California at Berkeley and the Lawrence Berkeley National Laboratory.

Hartwig’s advances in organic synthesis came from extending the work of American chemist Richard F. Heck and Japanese chemists Negishi Ei-ichi and Suzuki Akira. In 1968 Heck used palladium as a catalyst in the synthesis of organic molecules. A carbon atom in an organic molecule binds to a palladium atom; when a carbon atom from another organic molecule binds to the palladium atom, the carbon atoms bind to each other, ejecting the palladium and forming a new molecule. Negishi and Suzuki achieved similar results by using zinc and boron, respectively, as catalysts instead of palladium. (Heck, Negishi, and Suzuki were awarded the 2010 Nobel Prize in Chemistry for their work.)

In the 1990s Hartwig was inspired by work done in the 1980s by Japanese chemists Toshihiko Migita and Masanori Kosugi, who also had found that palladium could be used as a catalyst in organic synthesis. The result for Hartwig was the discovery of the Buchwald-Hartwig cross-coupling reaction, in which a palladium atom with a phosphine ligand serves as the catalyst of a reaction that ends with the formation of a carbon-nitrogen bond. (The reaction is so named because American chemist Stephen L. Buchwald worked in this field at the same time but independently of Hartwig.) The Buchwald-Hartwig reaction has played an important part in manufacturing drugs to treat such conditions as lung cancer and autoimmune diseases.

Hartwig and his collaborators have also done extensive work on the functionalization of C—H bonds, in which a simple bond between a carbon atom and a hydrogen atom is replaced with a functional group. In 2012 American chemist Eric M. Simmons and Hartwig published work in which they used a catalyst containing iridium to functionalize one specific bond, which allows for easy assembly and synthesis of complex organic molecules.

Hartwig has been honored with the Centenary Prize from the Royal Society of Chemistry (2018), the Tetrahedron Prize for Creativity in Organic Chemistry (2018), and the Wolf Prize (2019, with Buchwald). He is the author of Organotransition Metal Chemistry: From Bonding to Catalysis (2010).

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Erik Gregersen