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The John B. Goodenough Award is run biennially by the Royal Society of Chemistry and awards contributions to the field of materials chemistry.[1] The prize winner, chosen by the Materials Chemistry Division Awards Committee, receives a monetary reward, a medal, a certificate and completes a UK lecture tour.
 |
| John B. Goodenough Award | |
|---|---|
| Awarded for | Contributions to materials chemistry |
| Sponsored by | Royal Society of Chemistry |
| Date | 2008 |
| Country | United Kingdom (international) |
| Formerly called | Materials Chemistry Forum Lifetime Award |
The award, which was originally referred to as the Materials Chemistry Forum Lifetime Award, was set up in 2008. It was named after the materials scientist John Bannister Goodenough, who has made significant contributions to the development of the first random access memory and in the field of Li-ion rechargeable batteries.[2]
| Year | Scientist(s) | Institution | Research | Ref |
|---|---|---|---|---|
| 2009 | David C. Sherrington | University of Strathclyde | "use of polymers in materials chemistry" | [3] |
| 2011 | Andrew Holmes | University of Melbourne | polymeric materials for optoelectronics and light harvesting | [4] |
| 2013 | Anthony West | University of Sheffield | "structure-composition-property relationships in oxide-based materials" | [5] |
| 2015 | William I. F. David | University of Oxford | "development of new theoretical and experimental approaches to powder diffraction and his contributions to the understanding of structure-property relationships in important solid-state materials" | [6] |
| 2017 | Stephen Elliott | University of Cambridge | "science of disordered materials when applied to chalcogenide glasses and phase-change materials for industry" | [7] |
| 2019 | Clare Grey | University of Cambridge | "uses of magnetic resonance methods to study structure and dynamics in electrochemical devices" | [8] |
| 2022 | J. Paul Attfield | University of Edinburgh | "new materials from high pressure synthesis and of novel electronic phenomena in solids" | [9] |
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