George M. Whitesides

In an article in Nature (2011), Whitesides and John M. Deutch challenged the scientific and chemical communities to become more relevant to current social and environmental issues. They criticized academic chemistry for an "increasingly incurious and risk-averse attitude" and for focusing on "familiar questions of familiar disciplines" rather than taking a broad interdisciplinary view and exploring new areas. They recommended that institutions focus on practical problems, and teach entrepreneurial skills along with basic science so as to stimulate the development of practical technologies, encouraging students to take ownership of their own research. A similar approach is taken by the Whitesides Research Group, of which John A. Rogers has said, "Chemistry was the core expertise that provided the competitive advantage, but there was no sense of chemistry as a narrowly defined discipline. It was chemistry to solve problems, not necessarily to do chemistry." The article sparked strong reactions both for and against their ideas. Many in the scientific community asserted that research agendas should be "disinterested" and that education must focus on fundamental research to advance. Whitesides and Deutch argued that teaching science in ways that address current issues can still lead to foundational work and scientific breakthroughs.

He received the Othmer Gold Medal for outstanding contributions to progress in chemistry and science in 2010. He was awarded the F. A. Cotton Medal for Excellence in Chemical Research of the American Chemical Society in 2011. In 2011 he also received the King Faisal International Prize in Chemistry. In 2013 he was awarded the IRI Medal alongside Robert S. Langer. In 2013 he gave the inaugural Patrusky Lecture. In 2017, he was awarded the Lifetime Achievement award by Xconomy. In 2022 he received the Kavli Prize in Nanosciences.

More recently, George Whitesides received the 2009 Dreyfus Prize in the Chemical Sciences from The Camille and Henry Dreyfus Foundation on September 30, 2009, for his creation of new materials that have significantly advanced the field of chemistry and its societal benefits. In November 2009, he was recipient of the Reed M. Izatt and James J. Christensen Lectureship. Also in 2009, George Whitesides was awarded the 2009 Benjamin Franklin Medal in Chemistry by The Franklin Institute in Philadelphia, for his pioneering chemical research in molecular self-assembly and innovative nanofabrication techniques that have resulted in rapid, inexpensive fabrication of ultra small devices.

Beyond his scientific research, Whitesides is also active in public service. He was part of the Committee on Science, Engineering, and Public Policy, which authored the National Academies' report Rising Above the Gathering Storm (2007). The report addressed U.S. competitiveness in science and technology. Two key challenges were identified as being essential to American scientific and engineering prowess: 1) creating high-quality jobs for Americans and 2) addressing the nation's need for clean, affordable, and reliable energy. The committee developed four areas of recommendations, with twenty specific proposals for implementable actions. Addressing human, financial, and informational issues, the report argued in favor of:

In 2004, Whitesides was appointed the Woodford L. and Ann A. Flowers University Professor at Harvard, one of only 24 University Professorships at the institution as of 2014. He is cofounder and director of the Whitesides Research Group at Harvard, an active research group of graduate and postdoctoral students with a lab space covering more than 6,000 square feet (560 m). The single primary objective of his lab is "to fundamentally change the paradigms of science."

In 2002, Whitesides served as the Chairman of the International Review Panel that evaluated the state of chemical research in the United Kingdom. Their findings were summarized what is now known as the Whitesides Report. They identified chemical biology and materials science as important areas for new development in the United Kingdom, and argued that chemistry is an important discipline in part because its concepts, processes and materials underlie other disciplines and offer opportunities to enhance communication between disciplines.

Whitesides is a member of the American Academy of Arts and Sciences, the National Academy of Sciences, and the National Academy of Engineering. He is also a fellow of the American Association for the Advancement of Science and the American Philosophical Society. In 2002 he became foreign member of the Royal Netherlands Academy of Arts and Sciences.

Whitesides has made scientific contributions in diverse areas, including nuclear magnetic resonance spectroscopy (NMR), microfluidics and nanotechnology. He is particularly well known for his work in materials and surface science. His work in surface chemistry has examined the 'self-assembly' processes of molecules arranging themselves on a surface. This work has become a basis for developments in nanoscience, electronics, pharmaceutical science and medical diagnostics. Some of his research has been visually presented through the collaboration On the Surface of Things: Images of the Extraordinary in Science with MIT science photographer Felice Frankel. One image, a pattern of blue and green water droplets created by Frankel, was featured on a 1992 cover of Science.

Whitesides has served on advisory committees for the National Science Foundation, NASA, and the Department of Defense. He has also served on the National Research Council in various capacities since 1984, including stints on the Committee on Science and Technology for Counter Terrorism and the Committee on Nanotechnology for the Intelligence Community. He is also a member of the Reliance Innovation Council formed by Reliance Industries Limited, India.

In 1982, Whitesides moved back to the Department of Chemistry at Harvard University, his alma mater, taking his laboratory with him. He was the Mallinckrodt Professor of Chemistry from 1982 to 2004. At Harvard, Whitesides has served as chairman of the Chemistry Department (1986–89) and Associate Dean of the Faculty of Arts and Sciences (1989–92).

Among other awards, Whitesides is the recipient of the American Chemical Society's ACS Award in Pure Chemistry (1975), the Arthur C. Cope Award (1995), National Medal of Science (1998), the Kyoto Prize in Materials Science and Engineering (2003), the Gabbay Award (2004), the Dan David Prize (2005), the Welch Award in Chemistry (2005), the AIC Gold Medal (2007), and the Priestley Medal (2007), the highest honor conferred by the ACS.

Whitesides began his independent career as an assistant professor at the Massachusetts Institute of Technology in 1963 and remained there until 1982. He continued his work with NMR spectroscopy and organometallic compounds, as well as working with polymers. Collaborations with biologists at MIT were an early influence informing his later work with biological systems. He is credited as having played a "pivotal role" in the development of the Corey-House-Posner-Whitesides reaction.

Whitesides attended secondary school at Phillips Andover and graduated in 1957. He received his A.B. degree from Harvard College in 1960 and earned a Ph.D. in chemistry from the California Institute of Technology in 1964, where he worked with John D. Roberts. At Caltech, Whitesides began working in organic chemistry. Whitesides' graduate work in organometallic chemistry used NMR spectroscopy and density matrices to study Grignard reagents. He used NMR spectroscopy to study rate of change of Grignard reagents and the structure of Grignard reagents in solution. He also studied spin-spin coupling in a variety of organic compounds, using density matrix calculations to examine the spin systems that NMR analyses detect.

George McClelland Whitesides (born August 3, 1939) is an American chemist and professor of chemistry at Harvard University. He is best known for his work in the areas of nuclear magnetic resonance spectroscopy, organometallic chemistry, molecular self-assembly, soft lithography, microfabrication, microfluidics, and nanotechnology. A prolific author and patent holder who has received many awards, he received the highest Hirsch index rating of all living chemists in 2011.