Gerbrand Ceder

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Gerbrand Ceder
Alma materKU Leuven (BA)
University of California, Berkeley (PhD)
Awards2017 National Academy of Engineering
2016 International Battery Award Research
2016 MRS Materials Theory Award
2015 MRS Fellow
2009 MRS Gold Medal
2007 MIT School of Engineering Graduate Teaching Award
2004 ECS Battery Research Award
Scientific career
FieldsComputational materials science
Computational materials design
InstitutionsUniversity of California, Berkeley
Doctoral advisorDidier de Fontaine
Doctoral studentsShyue Ping Ong,
Kisuk Kang,
Anubhav Jain,
Geoffroy Hautier,
Shirley Meng,
Jinhyuk Lee,
Anton Van der Ven,
Wenhao Sun
Websiteceder.berkeley.edu

Gerbrand Ceder is a Belgian–American scientist who is a professor and the Samsung Distinguished Chair in Nanoscience and Nanotechnology Research at the University of California, Berkeley.[1][2] He has a joint appointment as a senior faculty scientist in the Materials Sciences Division of Lawrence Berkeley National Laboratory. He is notable for his pioneering research in high-throughput computational materials design, and in the development of novel lithium-ion battery technologies. He is co-founder of the Materials Project, an open-source online database of ab initio calculated material properties, which inspired the Materials Genome Initiative[3] by the Obama administration in 2011. He is also the Founder and was CTO of Pellion Technologies (previously CEO), which aims to commercialize magnesium-ion batteries. In 2017 Gerbrand Ceder was elected a member of the National Academy of Engineering, "For the development of practical computational materials design and its application to the improvement of energy storage technology."[4]

Career[edit]

Gerbrand Ceder received an engineering degree in Metallurgy and Applied Materials Science from the KU Leuven, Belgium, in 1988, and a Ph.D. in materials science from the University of California at Berkeley in 1991, at which time he joined the faculty at Massachusetts Institute of Technology (MIT). He was the R.P. Simmons Professor of Materials Science and Engineering at the Massachusetts Institute of Technology for 25 years, after which he moved back to the U. C. Berkeley, where he remains. His research group focuses on the use of computational modeling to design novel materials for energy generation and storage, including battery cathodes, hydrogen storage materials, thermoelectrics, and electrodes for solar photoelectrochemical water-splitters. His group also designs, synthesizes and characterizes novel lithium-ion and sodium-ion battery chemistries. He has published over 400 scientific papers in the fields of alloy theory, oxide phase stability, high-temperature superconductors, Li-battery materials, machine learning, and theory of materials synthesis, and holds 25 current or pending U.S. patents.

Research[edit]

Li-ion Batteries Cathode Materials[edit]

In 2009, ByungWoo Kang and Gerbrand Ceder demonstrated that the lithium-ion battery cathode material LiFePO4 could undergo ultrafast charging and discharging (~10 sec full discharge).[5]

In 2014, Jinhyuk Lee and Gerbrand Ceder demonstrated that when the Li content surpasses the percolation threshold, disordered rocksalt structures can deliver high discharge capacity (>300 mAh/g) and energy density (>1000 Wh/kg). The discovery opens up new opportunities for Nickel and cobalt free cathode materials for Li-ion batteries and significantly lowers the cost of cathode materials.[6]

Autonomous Materials Discovery[edit]

A-lab process involves identifying air-stable materials using DFT and the Materials Project, proposing synthesis recipes via ML models trained on literature data, and automating the entire process from dosing to characterization using a robotic laboratory, with iterative improvements based on ML analysis of XRD.[7]

In November 2023, Ceder and colleagues introduced A-Lab, an autonomous laboratory for inorganic powder synthesis, integrating computations, machine learning, and robotics.[7] The work garnered significant attention[8][9] based on the claim it successfully synthesized 41 out of 58 novel compounds, primarily oxides and phosphates, over 17 days. The A-lab used graph neural networks trained on computational materials databases and literature-trained natural language models for initial synthesis recipe proposals, optimized through active learning based on thermodynamics.

Awards and Honors[edit]

Professor Ceder is an elected Fellow of the Materials Research Society (MRS),[10] the American Physical Society (APS),[11] The Minerals, Metals & Materials Society (TMS),[12][13] and the Electrochemical Society (ECS).[14] In 2017, he was elected to the US National Academy of Engineering for "For the development of practical computational materials design and its application to the improvement of energy storage technology".[15][16] He is also a member of the American Academy of the Arts and Science (2022) [17][18] and a Fellow of the Royal Flemish Academy of Arts and Sciences (2016).[19]

As a young faculty member at MIT he received multiple awards for his work, including an National Science Foundation Early Career Award and the TMS Robert Lansing Hardy Award for from The Minerals, Metals & Materials Society for "exceptional promise for a successful career" (1996).[20][21] In 1999 he was also appointed to the Res Metallica Chair of his Alma Mater, the K.U. Leuven.

Professor Ceder’s work on energy storage materials include the Battery Research Award from the Electrochemical Society in 2004,[22] the Research Award from the International Battery Association in 2017,[23] and in 2009 the Materials Research Society (MRS) Gold Medal "For pioneering the high-impact field of first-principles thermodynamics of batteries materials and for the development of high-power density Li battery compounds".[24][25]

For his work on developing materials theory and computational materials science he received the MRS Materials Theory Award in 2016,[26][27] and in 2019 the National Institute for Materials Science (NIMS – Japan) Award for Data-driven Materials Research.[28] In 2023 he was awarded the Hume Rothery Award from TMS for “seminal contributions to theory and predictive computational methods for complex multicomponent alloys and ceramic solid solutions, and pioneering advances for ab-initio materials design.”[29] Most recently he was honored with the Charles Hatchett Award for the productive use of Nb in energy storage materials.[30] Other awards include the TMS Morris Cohen Award (2016)[31] and the Alexander M. Cruickshank Award at the 2015 Gordon Conference.

See also[edit]

References[edit]

  1. ^ "Gerbrand Ceder". Materials Science & Engineering. 2023. Retrieved 2024-03-08.
  2. ^ "Massachusetts Institute of Technology's Technology Review, Volume 102". Massachusetts Institute of Technology. 1999. Retrieved September 19, 2016.
  3. ^ "The Materials Genome Initiative". whitehouse.gov – via National Archives.
  4. ^ "National Academy of Engineering Elects 84 Members and 22 Foreign Members". NAE Website.
  5. ^ Kang, Byungwoo; Ceder, Gerbrand (2009). "Battery materials for ultrafast charging and discharging". Nature. 458 (7235): 190–193. Bibcode:2009Natur.458..190K. doi:10.1038/nature07853. PMID 19279634. S2CID 20592628.
  6. ^ Lee, Jinhyuk; Urban, Alexander; Su, Dong; Hautier, Geoffroy; Ceder, Gerbrand (2014). "Unlocking the Potential of Cation-Disordered Oxides for Rechargeable Lithium Batteries". Science. 343 (6170): 519–522. doi:10.1126/science.1246432.
  7. ^ a b Szymanski, Nathan J.; Rendy, Bernardus; Fei, Yuxing; Kumar, Rishi E.; He, Tanjin; Milsted, David; McDermott, Matthew J.; Gallant, Max; Cubuk, Ekin Dogus; Merchant, Amil; Kim, Haegyeom; Jain, Anubhav; Bartel, Christopher J.; Persson, Kristin; Zeng, Yan (2023-11-29). "An autonomous laboratory for the accelerated synthesis of novel materials". Nature. 624 (7990): 86–91. doi:10.1038/s41586-023-06734-w. ISSN 1476-4687. PMC 10700133. PMID 38030721.
  8. ^ Peplow, Mark (2023-11-29). "Google AI and robots join forces to build new materials". Nature. doi:10.1038/d41586-023-03745-5.
  9. ^ Masse, Bryson (2023-12-04). "AI meets materials science: the promise and pitfalls of automated discovery". VentureBeat. Retrieved 2024-01-17.
  10. ^ "MRS Fellows". www.mrs.org.
  11. ^ "APS Fellows". www.aps.org.
  12. ^ "TMS 2018 Class f Fellows". www.newswise.com.
  13. ^ "List of Fellows of The Minerals, Metals & Materials Society". Wikipedia.
  14. ^ "ECS Fellows 2022". www.electrochem.org.
  15. ^ "National Academy of Engineering 2017". www.nae.edu.
  16. ^ "National Academy of Engineering Election Citation". www.nae.edu.
  17. ^ "American Academy of the Arts and Science Members 2022". www.amacad.org.
  18. ^ "American Academy of the Arts and Science Member - Gerbrand Ceder". www.amacad.org.
  19. ^ "Fellow of the Royal Flemish Academy of Arts and Sciences". mse.berkeley.edu.
  20. ^ "AIME Robert Lansing Hardy Award". The Minerals, Metals & Materials Society (TMS). Retrieved March 8, 2024.
  21. ^ "MIT Annual Report 1996". MIT Annual Reports. Retrieved March 8, 2024.
  22. ^ "Battery Division Research Award". The Electrochemical Society (ECS). Retrieved March 8, 2024.
  23. ^ "Research Award from the International Battery Association".
  24. ^ "2009 MRS Medal". news.mit.edu.
  25. ^ "Title of the document" (PDF). SpringerLink. Retrieved March 8, 2024.
  26. ^ "Materials Theory Award 2016". www.mrs.org.
  27. ^ "Gerbrand Ceder receives 2016 Materials Theory Award". MRS Bulletin. 41. Springer: 813. October 10, 2016. doi:10.1557/mrs.2016.233. Retrieved March 8, 2024.
  28. ^ "NIMS Award 2019". National Institute for Materials Science (NIMS). Retrieved March 8, 2024.
  29. ^ "TMS William Hume Rothery Award". The Minerals, Metals & Materials Society (TMS).
  30. ^ "Charles Hatchett Award". www.niobium.tech/en/.
  31. ^ "Morris Cohen Awards". The Minerals, Metals & Materials Society (TMS).

External links[edit]

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