Whittingham won the prize for pioneering research leading to the development of the lithium-ion battery along with John B. Goodenough, Virginia H. Cockrell Centennial Chair in Engineering at the University of Texas at Austin.
“I am overcome with gratitude at receiving this award, and I honestly have so many people to thank I don’t know where to begin,” said Whittingham. “The research I have been involved with for over 30 years has helped advance how we store and use energy at a foundational level, and it is my hope that this recognition will help to shine a much-needed light on the nation’s energy future.”
Whittingham came to Binghamton University in 1988 after 16 years at Exxon Research and Engineering Company, where he received the patent for a rechargeable lithium-ion battery, and Schlumberger-Doll Research. In his 30-plus year career, he has been a pioneer in the development of lithium-ion batteries and his work has been called foundational by colleagues at all levels. He holds the original patent on the concept of the use of intercalation chemistry in high-power density, highly reversible lithium batteries – work that provided the basis for subsequent discoveries that now power most laptop computers – and his research has been called ‘world-leading.’
With more than 200 publications in some of the leading scholarly journals and 16 patents, Whittingham has earned a national and international reputation as a prolific scientist.His research in the area of synthesis and characterization of novel transition metal oxides for energy storage and conversion, separations or as sensors has been continuously supported since his arrival in Binghamton, with over $7 million in federal research grants from the National Science Foundation and the Department of Energy.
At Binghamton, Whittingham has also helped to establish the Materials Science and Engineering Program, bringing his creativity and innovation to the University’s graduate curriculum as well as to its laboratories.
Since joining the faculty at Binghamton, Whittingham has sustained his ground-breaking research. Working a great deal with ambient temperature, he and his research group emphasize novel approaches to synthesis which often allow structures to be formed that are unstable under the high temperatures normally used for preparing oxides.
“Binghamton is very proud that the Nobel committee has chosen to award Distinguished Professor of Chemistry M. Stanley Whittingham with the Nobel Prize for his pioneering work on lithium-ion batteries,” said Binghamton University President Harvey Stenger. “Professor Whittingham’s work has fundamentally changed the way the world stores and utilizes energy, making possible a revolution in consumer and industrial technologies. For nearly thirty years, Professor Whittingham has been one of the most visible and productive researchers at the University, and all of us at Binghamton congratulate him on this great honor.”
Whittingham has been recognized by his peers with two major awards in recent years. In 2002, he was honored with the Battery Research Award of the Electrochemical Society for his many contributions to “Intercalation Chemistry and Battery Materials,” and two years later he was elected a Fellow of the Electrochemical Society.
He has also participated in, and held leadership positions in, the American Chemical Society, the American Physical Society, the Electrochemical Society and the Materials Research Society; and served on the editorial boards of several journals, including Chemistry of Materials and the Materials Research Bulletin. He was also the founder and principle editor of the journal Solid State Ionics – one of the two major journals in the field.
Whittingham earned his bachelor’s, master’s and doctoral degrees from Oxford University, before coming to the United States as a post-doctoral fellow at Stanford University.
Whittingham and Goodenough share the recognition with Akira Yoshino, professor at Meijo University.
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