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John B. Goodenough

January 01, 1970

John Bannister Goodenough (/ˈɡʊdɪnʌf/ GUUD-in-uf;[3] July 25, 1922 – June 25, 2023) was an American materials scientist, a solid-state physicist, and a Nobel laureate in chemistry. From 1986 he was a professor of Mechanical,[4] Materials Science, and Electrical Engineering at the University of Texas at Austin. He is credited with identifying the Goodenough–Kanamori rules of the sign of the magnetic superexchange in materials, with developing materials for computer random-access memory and with inventing cathode materials for lithium-ion batteries.

John B. Goodenough
Goodenough in 2019
Born
John Bannister Goodenough

(1922-07-25)July 25, 1922
Jena, Thuringia, German Reich
DiedJune 25, 2023(2023-06-25) (aged 100)
Austin, Texas, U.S.
NationalityAmerican
Education
Known for
Spouse
Irene Wiseman
(m. 1951; died 2016)
Parent
Awards
Scientific career
FieldsPhysics
Institutions
ThesisA theory of the deviation from close packing in hexagonal metal crystals (1952)
Doctoral advisorClarence Zener
Notable students

Goodenough was born in Jena, Germany, to American parents. During and after graduating from Yale University, Goodenough served as a U.S. military meteorologist in World War II. He went on to obtain his Ph.D. in physics at the University of Chicago, became a researcher at MIT Lincoln Laboratory, and later the head of the Inorganic Chemistry Laboratory at the University of Oxford.

Goodenough was awarded the National Medal of Science, the Copley Medal, the Fermi Award, the Draper Prize, and the Japan Prize. The John B. Goodenough Award in materials science is named for him. In 2019, he was awarded the Nobel Prize in Chemistry alongside M. Stanley Whittingham and Akira Yoshino; at 97 years old, he became the oldest Nobel laureate in history.[5] From August 27, 2021, until his death, he was the oldest living Nobel Prize laureate.

Personal life and education edit

John Goodenough was born in Jena, Germany, on July 25, 1922,[6] to American parents, Erwin Ramsdell Goodenough (1893–1965) and Helen Miriam (Lewis) Goodenough.[7] He came from an academic family. His father, a graduate student at Oxford when John was born, eventually became a professor of religious history at Yale.[8][9] His brother Ward became an anthropology professor at the University of Pennsylvania.[10] John also had two half-siblings from his father's second marriage: Ursula Goodenough, emeritus professor of biology at Washington University in St. Louis; and Daniel Goodenough, emeritus professor of biology at Harvard Medical School.[11]

Goodenough suffered from dyslexia. At the time, dyslexia was poorly understood by the medical community, and Goodenough's condition went undiagnosed and untreated.[11] Although his primary schools considered him "a backward student," he taught himself to write so that he could take the entrance exam for Groton School, the boarding school where his older brother was studying at the time.[11][12] He was awarded a full scholarship.[8] At Groton, his grades improved and he eventually graduated at the top of his class.[11][13] He also developed an interest in exploring nature, plants, and animals.[14] Although he was raised an atheist, he converted to Protestant Christianity in high school.[12][15][16]

After Groton, Goodenough graduated summa cum laude from Yale, where he was a member of Skull and Bones.[17] He completed his coursework in early 1943 (after just two and a half years) and received his degree in 1944,[18] covering his expenses by tutoring and grading exams.[17] He had initially sought to enlist in the military following the Japanese attack on Pearl Harbor, but his mathematics professor convinced him to stay at Yale for another year so that he could finish his coursework, which qualified him to join the U.S. Army Air Corps' meteorology department.[12][17]

After World War II ended, Goodenough obtained a master's degree and a Ph.D. in physics from the University of Chicago, the latter in 1952.[12][19] His doctoral supervisor was Clarence Zener, a theorist in electrical breakdown; he also worked and studied with physicists, including Enrico Fermi and John A. Simpson. While at Chicago, he met Canadian history graduate student Irene Wiseman.[20][21] They married in 1951.[11][8] The couple had no children.[11] Irene died in 2016.[21]

Goodenough turned 100 on July 25, 2022.[22] He died at an assisted living facility in Austin, Texas, on June 25, 2023, one month shy of what would have been his 101st birthday.[23][24][11]

Career and research edit

Goodenough discusses his research and career.

Over his career, Goodenough authored more than 550 articles, 85 book chapters and reviews, and five books, including two seminal works, Magnetism and the Chemical Bond (1963)[25] and Les oxydes des metaux de transition (1973).[26]

MIT Lincoln Laboratory edit

After his studies, Goodenough was a research scientist and team leader at the MIT Lincoln Laboratory for 24 years. At MIT, he was part of an interdisciplinary team responsible for developing random access magnetic memory.[27] His research focused on magnetism and on the metal–insulator transition behavior in transition-metal oxides. His research efforts on RAM led him to develop the concepts of cooperative orbital ordering, also known as a cooperative Jahn–Teller distortion, in oxide materials.[28] They subsequently led him to develop (with Junjiro Kanamori) the Goodenough–Kanamori rules, a set of semi-empirical rules to predict the sign of the magnetic superexchange in materials; superexchange is a core property for high-temperature superconductivity.[29][30][31]

University of Oxford edit

 
Blue plaque erected by the Royal Society of Chemistry commemorating work towards the rechargeable lithium-ion battery at Oxford

The U.S. government eventually terminated Goodenough's research funding, so during the late 1970s and early 1980s, he left the United States and continued his career as head of the Inorganic Chemistry Laboratory at the University of Oxford.[28] Among the highlights of his work at Oxford, Goodenough is credited with significant research essential to the development of commercial lithium-ion rechargeable batteries.[28] Goodenough was able to expand upon previous work from M. Stanley Whittingham on battery materials, and found in 1980 that by using LixCoO2 as a lightweight, high energy density cathode material, he could double the capacity of lithium-ion batteries.

Although Goodenough saw a commercial potential of batteries with his LiCoO2 and LiNiO2 cathodes and approached Oxford University with a request to patent this invention, Oxford refused. Unable to afford the patenting expenses with his academic salary, Goodenough turned to UK's Atomic Energy Research Establishment in Harwell, which accepted his offer, but under the terms, which provided zero royalty payment to the inventors John B. Goodenough and Koichi Mizushima. In 1990, the AERE licensed Goodenough's patents to Sony Corporation, which was followed by other battery manufacturers. It was estimated, that the AERE made over 10 mln. British pounds from this licensing.[32]

The work at Sony on further improvements to Goodenough's invention was led by Akira Yoshino, who had developed a scaled up design of the battery and manufacturing process.[33] Goodenough received the Japan Prize in 2001 for his discoveries of the materials critical to the development of lightweight high energy density rechargeable lithium batteries,[34] and he, Whittingham, and Yoshino shared the 2019 Nobel Prize in Chemistry for their research in lithium-ion batteries.[33]

University of Texas edit

From 1986, Goodenough was a professor at The University of Texas at Austin in the Cockrell School of Engineering departments of Mechanical Engineering and Electrical Engineering.[35] During his tenure there, he continued his research on ionic conducting solids and electrochemical devices; he continued to study improved materials for batteries, aiming to promote the development of electric vehicles and to help reduce human dependency on fossil fuels.[36] Arumugam Manthiram and Goodenough discovered the polyanion class of cathodes.[37][38][39] They showed that positive electrodes containing polyanions, e.g., sulfates, produce higher voltages than oxides due to the inductive effect of the polyanion. The polyanion class includes materials such as lithium-iron phosphates that are used for smaller devices like power tools.[40] His group also identified various promising electrode and electrolyte materials for solid oxide fuel cells.[26] He held the Virginia H. Cockrell Centennial Chair in Engineering.[41]

Goodenough still worked at the university at age 98 as of 2021,[42] hoping to find another breakthrough in battery technology.[43][44]

On February 28, 2017, Goodenough and his team at the University of Texas published a paper in the journal Energy and Environmental Science on their demonstration of a glass battery, a low-cost all-solid-state battery that is noncombustible and has a long cycle life with a high volumetric energy density, and fast rates of charge and discharge. Instead of liquid electrolytes, the battery uses glass electrolytes that enable the use of an alkali-metal anode without the formation of dendrites.[45][44][46][47] However, this paper was met with widespread skepticism by the battery research community and remains controversial after several follow-up works. The work was criticized for a lack of comprehensive data,[48] spurious interpretations of the data obtained,[48] and that the proposed mechanism of battery operation would violate the first law of thermodynamics.[49][50]

In April 2020, a patent was filed for the glass battery on behalf of Portugal's National Laboratory of Energy and Geology (LNEG), the University of Porto, Portugal, and the University of Texas.[51]

Advisory work edit

In 2010, Goodenough joined the technical advisory board of Enevate, a silicon-dominant Li-ion battery technology startup based in Irvine, California.[52] Goodenough also served as an adviser to the Joint Center for Energy Storage Research (JCESR), a collaboration led by Argonne National Laboratory and funded by the Department of Energy.[53] From 2016, Goodenough also worked as an adviser for Battery500, a national consortium led by Pacific Northwest National Laboratory (PNNL) and partially funded by the U.S. Department of Energy.[54][55]

Distinctions edit

 
Goodenough receiving the 2009 Enrico Fermi Award from U.S. Energy Secretary Steven Chu.

Goodenough was elected a member of the National Academy of Engineering in 1976 for his work designing materials for electronic components and clarifying the relationships between the properties, structures, and chemistry of substances. He was also a member of the American National Academy of Sciences and its French, Spanish, and Indian counterparts.[56] In 2010, he was elected a Foreign Member of the Royal Society.[57] The Royal Society of Chemistry grants a John B. Goodenough Award in his honor.[28]

Goodenough received the following awards:

Goodenough was 97 when he received the Nobel Prize. He remains the oldest person ever to have been awarded the prize.

Works edit

Articles edit

  • John B. Goodenough (1955). "Theory of the role of covalence in the Perovskite-type Manganites [La, M(II)]MnO3". Phys. Rev. 100 (2): 564–573. Bibcode:1955PhRv..100..564G. doi:10.1103/physrev.100.564.
  • K. Mizushima; P.C. Jones; P.J. Wiseman; J.B. Goodenough (1980). "LixCoO2 (0<x<-1): A new cathode material for batteries of high energy density". Mater. Res. Bull. 15 (6): 783–799. doi:10.1016/0025-5408(80)90012-4. S2CID 97799722.
  • John B. Goodenough (1985). B. Schuman, Jr.; et al. (eds.). "Manganese Oxides as Battery Cathodes" (PDF). Proceedings Symposium on Manganese Dioxide Electrode: Theory and Practice for Electrochemical Applications. 85–4. Re Electrochem. Soc. Inc, N.J.: 77–96.
  • Lightfoot, P.; Pei, S. Y.; Jorgensen, J. D.; Manthiram, A.; Tang, X. X. & J. B. Goodenough. "Excess Oxygen Defects in Layered Cuprates", Argonne National Laboratory, The University of Texas-Austin, Materials Science Laboratory United States Department of Energy, National Science Foundation, (September 1990).
  • Argyriou, D. N.; Mitchell, J. F.; Chmaissem, O.; Short, S.; Jorgensen, J. D. & J. B. Goodenough. "Sign Reversal of the Mn-O Bond Compressibility in La1.2Sr1.8Mn2O7 Below TC: Exchange Striction in the Ferromagnetic State", Argonne National Laboratory, The University of Texas-Austin, Center for Material Science and Engineering United States Department of Energy, National Science Foundation, Welch Foundation, (March 1997).
  • A.K. Padhi; K.S. Nanjundaswamy; J.B. Goodenough (1997). (PDF). J. Electrochem. Soc. 144 (4): 1188–1194. Bibcode:1997JElS..144.1188P. doi:10.1149/1.1837571. S2CID 97625881. Archived from the original (PDF) on July 23, 2018.
  • John B. Goodenough (2004). "Electronic and ionic transport properties and other physical aspects of perovskites". Rep. Prog. Phys. 67 (11): 1915–1973. Bibcode:2004RPPh...67.1915G. doi:10.1088/0034-4885/67/11/R01. S2CID 250915186.
  • Goodenough, J. B.; Abruna, H. D. & M. V. Buchanan. "Basic Research Needs for Electrical Energy Storage. Report of the Basic Energy Sciences Workshop on Electrical Energy Storage, April 2–4, 2007", United States Department of Energy, (April 4, 2007).
  • . Faculty. The University of Texas at Austin Mechanical Engineering Department. May 3, 2005. Archived from the original on September 28, 2011. Retrieved August 23, 2011.

Books edit

  • Goodenough, John B. (1963). Magnetism and the Chemical Bond. Interscience-Wiley, New York. ISBN 0-88275-384-3.  
  • Goodenough, John B. (1973). Les oxydes des métaux de transition. Paris: Gauthier-Villars.
  • Madelung, Otfried; Goodenough, John B. (1984). Physics of non-tetrahedrally bonded binary compounds 3. Berlin: Springer. ISBN 3-540-12744-5. OCLC 80307018.
  • Goodenough, John B., ed. (1985). Cation ordering and electron transfer. Berlin: Springer. ISBN 3-540-15446-9. OCLC 12656638.
  • Goodenough, John B., ed. (2001). Localized to Itinerant Electronic Transition in Perovskite Oxides (Structure & Bonding, V. 98) (PDF).
  • Huang, Kevin; Goodenough, John B. (2009). Solid oxide fuel cell technology : principles, performance and operations. Cambridge, UK. ISBN 978-1-84569-651-1. OCLC 864716522.{{cite book}}: CS1 maint: location missing publisher (link)
  • Goodenough, John B. (2008). Witness to Grace. PublishAmerica. ISBN 978-1-60474-767-6. OCLC 1058153653.

See also edit

References edit

  1. ^ Thackeray, M. M.; David, W. I. F.; Bruce, P. G.; Goodenough, J. B. (1983). "Lithium insertion into manganese spinels". Materials Research Bulletin. 18 (4): 461–472. doi:10.1016/0025-5408(83)90138-1.
  2. ^ "John B. Goodenough Nobel Lecture". Nobel Prize.
  3. ^ Expert Opinion with Dr. Goodenough – The Future of Battery Storage (Expert Audience) on YouTube
  4. ^ "Welcome to the Walker Department of Mechanical Engineering". Walker Department of Mechanical Engineering.
  5. ^ a b Specia, Megan (October 9, 2019). "Nobel Prize in Chemistry Honors Work on Lithium-Ion Batteries – John B. Goodenough, M. Stanley Whittingham, and Akira Yoshino were recognized for research that "laid the foundation of a wireless, fossil-fuel-free society."". The New York Times. Retrieved October 9, 2019.
  6. ^ "John B. Goodenough". American Institute of Physics.
  7. ^ Mattes, Eleanor Bustin (1997). Myth for Moderns: Erwin Ramsdell Goodenough and Religious Studies in America, 1938–1955. Scarecrow Press. ISBN 978-0-8108-3339-5 – via Google Books.
  8. ^ a b c "The Nobel Prize in Chemistry 2019". NobelPrize.org. Retrieved February 23, 2024.
  9. ^ "Collection: Erwin Ramsdell Goodenough papers | Archives at Yale". archives.yale.edu. Retrieved February 23, 2024.
  10. ^ "Ward H. Goodenough papers". University of Pennsylvania Museum of Archaeology and Anthropology. Retrieved February 23, 2024.
  11. ^ a b c d e f g McFadden, Robert (June 26, 2023). "John B. Goodenough, 100, Dies; Nobel-Winning Creator of the Lithium-Ion Battery". The New York Times. Retrieved June 26, 2023.
  12. ^ a b c d Gregg, Helen (Summer 2016). "His Current Quest". The University of Chicago Magazine. Retrieved February 23, 2024.
  13. ^ LeVine, Steve (February 5, 2015). "The man who brought us the lithium-ion battery at the age of 57 has an idea for a new one at 92". Quartz (publication). Atlantic Media Company. Retrieved February 5, 2015.
  14. ^ The Powerhouse: America, China, and the Great Battery War. 2016. S. Levine. https://www.amazon.com/Powerhouse-America-China-Great-Battery/dp/0143128329/ref=sr_1_2?crid=GQR8F4EWZR4Y&keywords=Levin%2C+Powerhouse&qid=1697281419&sprefix=levin%2C+powerhouse%2Caps%2C90&sr=8-2
  15. ^ Friedman, Gail (Fall 2019). "Battery Genius" (PDF). Groton School Quarterly: 19–21.
  16. ^ October 14th, Eternity News |; Comment, 2019 02:44 PM | Add a (October 14, 2019). "Winners of this year's Nobel prizes follow Jesus – Eternity News". www.eternitynews.com.au. Retrieved May 8, 2021.{{cite web}}: CS1 maint: numeric names: authors list (link)
  17. ^ a b c Goodenough, John B. (2008). Witness to Grace. PublishAmerica. ISBN 978-1-4626-0757-0 – via Google Books.
  18. ^ Belli, Brita (October 9, 2019). "Nobel laureate John Goodenough '44 inspires next generation of scientists". YaleNews. Retrieved February 23, 2024.
  19. ^ Goodenough, John B. (1952). A theory of the deviation from close packing in hexagonal metal crystals (Ph.D. thesis). The University of Chicago. OCLC 44609164 – via ProQuest.
  20. ^ "The Nobel Prize in Chemistry 2019".
  21. ^ a b Olinto, Angela (September 9, 2019). "University of Chicago alum John B. Goodenough shares Nobel Prize for invention of lithium-ion battery". UChicago News. Retrieved October 9, 2019.
  22. ^ Manthiram, Arumugam (July 8, 2022). "John Goodenough's 100th Birthday Celebration: His Impact on Science and Humanity". ACS Energy Letters. 7 (7): 2404–2406. doi:10.1021/acsenergylett.2c01343. ISSN 2380-8195. Retrieved November 3, 2022.
  23. ^ "Goodenough, Nobel laureate who gave the world Li-ion batteries, passes away". www.thehindubusinessline.com. June 26, 2023. Retrieved June 26, 2023.
  24. ^ "UT Mourns Lithium-Ion Battery Inventor and Nobel Prize Recipient John Goodenough". UTexas.edu. June 26, 2023. Retrieved June 26, 2023.
  25. ^ Jacoby, Mitch (September 13, 2017). "Goodenough wins 2017 Welch Award". Chemical and Engineering News. Retrieved October 10, 2019.
  26. ^ a b Perks, Bea (December 22, 2014). "Goodenough rules". Chemistry World. Retrieved October 10, 2019.
  27. ^ Ryan, Dorothy (October 9, 2019). "Longtime MIT Lincoln Laboratory researcher wins Nobel Prize in Chemistry". MIT Lincoln Laboratory. Retrieved February 23, 2024.
  28. ^ a b c d "Royal Society of Chemistry – John B Goodenough Award". Royal Society of Chemistry. Retrieved January 20, 2015.
  29. ^ J. B. Goodenough (1955). "Theory of the Role of Covalence in the Perovskite-Type Manganites [La, M(II)]MnO3". Physical Review. 100 (2): 564. Bibcode:1955PhRv..100..564G. doi:10.1103/PhysRev.100.564.
  30. ^ John B. Goodenough (1958). "An interpretation of the magnetic properties of the perovskite-type mixed crystals La1−xSrxCoO3−λ". Journal of Physics and Chemistry of Solids. 6 (2–3): 287. doi:10.1016/0022-3697(58)90107-0.
  31. ^ J. Kanamori (1959). "Superexchange interaction and symmetry properties of electron orbitals". Journal of Physics and Chemistry of Solids. 10 (2–3): 87. Bibcode:1959JPCS...10...87K. doi:10.1016/0022-3697(59)90061-7.
  32. ^ https://www.amazon.com/Long-Hard-Road-Lithium-Ion-Electric/dp/1612497624. page 70.
  33. ^ a b Kim, Allen (October 9, 2019). "John B. Goodenough just became the oldest person, at 97, to win a Nobel Prize". CNN. Retrieved October 10, 2019.
  34. ^ "The 2001 (17th) Japan Prize". Japan Prize Foundation. Retrieved October 10, 2019.
  35. ^ Henderson, Jim (June 5, 2004). "UT professor, 81, is mired in patent lawsuit". Houston Chronicle. Retrieved August 26, 2011.
  36. ^ MacFarlene, Sarah (August 9, 2018). "The Battery Pioneer Who, at Age 96, Keeps Going and Going". The Wall Street Journal. Retrieved October 10, 2019.
  37. ^ Masquelier, Christian; Croguennec, Laurence (2013). "Polyanionic (Phosphates, Silicates, Sulfates) Frameworks as Electrode Materials for Rechargeable Li (or Na) Batteries". Chemical Reviews. 113 (8): 6552–6591. doi:10.1021/cr3001862. PMID 23742145.
  38. ^ Manthiram, A.; Goodenough, J. B. (1989). "Lithium insertion into Fe2(SO4)3 frameworks". Journal of Power Sources. 26 (3–4): 403–408. Bibcode:1989JPS....26..403M. doi:10.1016/0378-7753(89)80153-3.
  39. ^ Manthiram, A.; Goodenough, J. B. (1987). "Lithium insertion into Fe2(MO4)3 frameworks: Comparison of M = W with M = Mo". Journal of Solid State Chemistry. 71 (2): 349–360. Bibcode:1987JSSCh..71..349M. doi:10.1016/0022-4596(87)90242-8.
  40. ^ Lerner, Louise (October 9, 2019). "University of Chicago alum John B. Goodenough shares Nobel Prize for invention of lithium-ion battery". The University of Chicago. Retrieved October 10, 2019.
  41. ^ "John Goodenough – Department of Mechanical Engineering". University of Texas. Retrieved October 10, 2019.[permanent dead link]
  42. ^ Nobel Prize in Chemistry Goes to John Goodenough of The University of Texas at Austin (October 9, 2019)
  43. ^ LeVine, Steve (February 5, 2015). . Quartz. Archived from the original on March 5, 2016.
  44. ^ a b "Lithium-Ion Battery Inventor Introduces New Technology for Fast-Charging, Noncombustible Batteries". Cockrell School of Engineering. February 28, 2017. Retrieved March 11, 2017.
  45. ^ Braga, M.H.; Grundish, N.S.; Murchison, A.J.; Goodenough, J.B. (December 9, 2016). "Alternative strategy for a safe rechargeable battery". Energy and Environmental Science. 10: 331–336. doi:10.1039/C6EE02888H.
  46. ^ "Lithium-ion battery inventor introduces new technology for fast-charging, noncombustible batteries". EurekAlert!. February 28, 2017.
  47. ^ Solid State Batteries For Electric Cars: A New Breakthrough By The Father of the Lithium-Ion Battery on YouTube (March 1, 2017)
  48. ^ a b Lacey, Matt (March 29, 2017). "On the skepticism surrounding the "Goodenough battery"". Matt Lacey. Retrieved November 13, 2020.
  49. ^ Steingart, Daniel A.; Viswanathan, Venkatasubramanian (January 17, 2018). "Comment on "Alternative strategy for a safe rechargeable battery" by M. H. Braga, N. S. Grundish, A. J. Murchison and J. B. Goodenough, Energy Environ. Sci., 2017, 10, 331–336". Energy & Environmental Science. 11 (1): 221–222. doi:10.1039/C7EE01318C. ISSN 1754-5706.
  50. ^ Steingart, Dan (September 5, 2017). "Redox without Redox". Medium. Retrieved November 13, 2020.
  51. ^ Schmidt, Bridie (April 6, 2020). "Li-ion co-inventor patents glass battery that could upturn auto industry". The Driven. Retrieved April 7, 2020.
  52. ^ "Enevate Adviser Shares Nobel". OCBJ. October 9, 2019. Retrieved February 28, 2020.
  53. ^ "His current quest". The University of Chicago Magazine. Retrieved January 28, 2020.
  54. ^ Ssz57 (July 27, 2016). "Battery Research Consortium Chosen by DOE to Advance Electric Cars". UT News. Retrieved January 28, 2020.{{cite news}}: CS1 maint: numeric names: authors list (link)
  55. ^ "Charging Up the Development of Lithium-Ion Batteries". Energy.gov. Retrieved January 28, 2020.
  56. ^ "John B. Goodenough". National Academy of Engineering. 2014. Retrieved October 10, 2019.
  57. ^ "John Goodenough". Royal Society. Retrieved March 20, 2012.
  58. ^ "Secretary Chu Names 2009 Enrico Fermi Award Winners" (Press release). APS Physics. April 2010. Retrieved October 10, 2019.
  59. ^ "Obama honors recipients of science, innovation and technology medals". CBS. Retrieved March 9, 2013.
  60. ^ "2014 Charles Stark Draper Prize for Engineering Recipients". National Academy of Engineering. Retrieved October 10, 2019.
  61. ^ "Past Award Recipients". Welch Award in Chemistry. Retrieved June 22, 2020.
  62. ^ The Welch Foundation (October 13, 2017). "2017 Welch Award – Dr. John B. Goodenough" – via Vimeo.
  63. ^ "Prahalad Award 2017". Retrieved June 22, 2020.
  64. ^ "Video (4 mins)". YouTube. Archived from the original on November 17, 2021.
  65. ^ "Inventor of the lithium-ion battery, Professor John Goodenough, awarded Royal Society's prestigious Copley Medal | Royal Society". royalsociety.org.

Further reading edit

  • John N. Lalena; David A. Cleary (2005). Principles of Inorganic Materials Design (PDF). Wiley-Interscience. pp. xi–xiv, 233–269. ISBN 0-471-43418-3.

External links edit

 
Scholia has an author profile for John B. Goodenough.
  • Faculty Directory at University of Texas at Austin
  • History of the lithium-ion battery, Physics Today, Sept. 2016
  • 1 hour interview with John Goodenough on YouTube by The Electrochemical Society, October 5, 2016
  • Are Solid State Batteries about to change the world?, Joe Scott, November 2018, Goodenough and team research on more energy dense solid state Li-ion chemistry featured 3:35–12:45.
  • Pr John Goodenough's interview GOODENOUGH John B., 2001–05 – Sciences : histoire orale on École supérieure de physique et de chimie industrielles de la ville de Paris history of science website
  • John B. Goodenough on Nobelprize.org   including the Nobel Lecture, "Designing Lithium-ion Battery Cathodes" (December 8, 2019)

January 01, 1970
john, goodenough, john, bannister, goodenough, guud, july, 1922, june, 2023, american, materials, scientist, solid, state, physicist, nobel, laureate, chemistry, from, 1986, professor, mechanical, materials, science, electrical, engineering, university, texas,. John Bannister Goodenough ˈ ɡ ʊ d ɪ n ʌ f GUUD in uf 3 July 25 1922 June 25 2023 was an American materials scientist a solid state physicist and a Nobel laureate in chemistry From 1986 he was a professor of Mechanical 4 Materials Science and Electrical Engineering at the University of Texas at Austin He is credited with identifying the Goodenough Kanamori rules of the sign of the magnetic superexchange in materials with developing materials for computer random access memory and with inventing cathode materials for lithium ion batteries John B GoodenoughGoodenough in 2019BornJohn Bannister Goodenough 1922 07 25 July 25 1922Jena Thuringia German ReichDiedJune 25 2023 2023 06 25 aged 100 Austin Texas U S NationalityAmericanEducationYale University BS University of Chicago MS PhD Known forLi ion rechargeable batteryLi ion manganese oxide batteryLi ion iron phosphate batteryGlass batteryGoodenough Kanamori rulesRandom access memorySpouseIrene Wiseman m 1951 died 2016 wbr ParentErwin Ramsdell Goodenough father AwardsJapan Prize 2001 Enrico Fermi Award 2009 National Medal of Science 2011 IEEE Medal for Environmental and Safety Technologies 2012 Charles Stark Draper Prize 2014 Welch Award 2017 Copley Medal 2019 Nobel Prize in Chemistry 2019 Scientific careerFieldsPhysicsInstitutionsMassachusetts Institute of TechnologyUniversity of OxfordUniversity of Texas at AustinThesisA theory of the deviation from close packing in hexagonal metal crystals 1952 Doctoral advisorClarence ZenerNotable studentsBill David postdoc 1 Arumugam Manthiram postdoc 2 Goodenough was born in Jena Germany to American parents During and after graduating from Yale University Goodenough served as a U S military meteorologist in World War II He went on to obtain his Ph D in physics at the University of Chicago became a researcher at MIT Lincoln Laboratory and later the head of the Inorganic Chemistry Laboratory at the University of Oxford Goodenough was awarded the National Medal of Science the Copley Medal the Fermi Award the Draper Prize and the Japan Prize The John B Goodenough Award in materials science is named for him In 2019 he was awarded the Nobel Prize in Chemistry alongside M Stanley Whittingham and Akira Yoshino at 97 years old he became the oldest Nobel laureate in history 5 From August 27 2021 until his death he was the oldest living Nobel Prize laureate Contents 1 Personal life and education 2 Career and research 2 1 MIT Lincoln Laboratory 2 2 University of Oxford 2 3 University of Texas 2 4 Advisory work 3 Distinctions 4 Works 4 1 Articles 4 2 Books 5 See also 6 References 7 Further reading 8 External linksPersonal life and education editJohn Goodenough was born in Jena Germany on July 25 1922 6 to American parents Erwin Ramsdell Goodenough 1893 1965 and Helen Miriam Lewis Goodenough 7 He came from an academic family His father a graduate student at Oxford when John was born eventually became a professor of religious history at Yale 8 9 His brother Ward became an anthropology professor at the University of Pennsylvania 10 John also had two half siblings from his father s second marriage Ursula Goodenough emeritus professor of biology at Washington University in St Louis and Daniel Goodenough emeritus professor of biology at Harvard Medical School 11 Goodenough suffered from dyslexia At the time dyslexia was poorly understood by the medical community and Goodenough s condition went undiagnosed and untreated 11 Although his primary schools considered him a backward student he taught himself to write so that he could take the entrance exam for Groton School the boarding school where his older brother was studying at the time 11 12 He was awarded a full scholarship 8 At Groton his grades improved and he eventually graduated at the top of his class 11 13 He also developed an interest in exploring nature plants and animals 14 Although he was raised an atheist he converted to Protestant Christianity in high school 12 15 16 After Groton Goodenough graduated summa cum laude from Yale where he was a member of Skull and Bones 17 He completed his coursework in early 1943 after just two and a half years and received his degree in 1944 18 covering his expenses by tutoring and grading exams 17 He had initially sought to enlist in the military following the Japanese attack on Pearl Harbor but his mathematics professor convinced him to stay at Yale for another year so that he could finish his coursework which qualified him to join the U S Army Air Corps meteorology department 12 17 After World War II ended Goodenough obtained a master s degree and a Ph D in physics from the University of Chicago the latter in 1952 12 19 His doctoral supervisor was Clarence Zener a theorist in electrical breakdown he also worked and studied with physicists including Enrico Fermi and John A Simpson While at Chicago he met Canadian history graduate student Irene Wiseman 20 21 They married in 1951 11 8 The couple had no children 11 Irene died in 2016 21 Goodenough turned 100 on July 25 2022 22 He died at an assisted living facility in Austin Texas on June 25 2023 one month shy of what would have been his 101st birthday 23 24 11 Career and research edit source source source source source track Goodenough discusses his research and career Over his career Goodenough authored more than 550 articles 85 book chapters and reviews and five books including two seminal works Magnetism and the Chemical Bond 1963 25 and Les oxydes des metaux de transition 1973 26 MIT Lincoln Laboratory edit After his studies Goodenough was a research scientist and team leader at the MIT Lincoln Laboratory for 24 years At MIT he was part of an interdisciplinary team responsible for developing random access magnetic memory 27 His research focused on magnetism and on the metal insulator transition behavior in transition metal oxides His research efforts on RAM led him to develop the concepts of cooperative orbital ordering also known as a cooperative Jahn Teller distortion in oxide materials 28 They subsequently led him to develop with Junjiro Kanamori the Goodenough Kanamori rules a set of semi empirical rules to predict the sign of the magnetic superexchange in materials superexchange is a core property for high temperature superconductivity 29 30 31 University of Oxford edit nbsp Blue plaque erected by the Royal Society of Chemistry commemorating work towards the rechargeable lithium ion battery at Oxford The U S government eventually terminated Goodenough s research funding so during the late 1970s and early 1980s he left the United States and continued his career as head of the Inorganic Chemistry Laboratory at the University of Oxford 28 Among the highlights of his work at Oxford Goodenough is credited with significant research essential to the development of commercial lithium ion rechargeable batteries 28 Goodenough was able to expand upon previous work from M Stanley Whittingham on battery materials and found in 1980 that by using LixCoO2 as a lightweight high energy density cathode material he could double the capacity of lithium ion batteries Although Goodenough saw a commercial potential of batteries with his LiCoO2 and LiNiO2 cathodes and approached Oxford University with a request to patent this invention Oxford refused Unable to afford the patenting expenses with his academic salary Goodenough turned to UK s Atomic Energy Research Establishment in Harwell which accepted his offer but under the terms which provided zero royalty payment to the inventors John B Goodenough and Koichi Mizushima In 1990 the AERE licensed Goodenough s patents to Sony Corporation which was followed by other battery manufacturers It was estimated that the AERE made over 10 mln British pounds from this licensing 32 The work at Sony on further improvements to Goodenough s invention was led by Akira Yoshino who had developed a scaled up design of the battery and manufacturing process 33 Goodenough received the Japan Prize in 2001 for his discoveries of the materials critical to the development of lightweight high energy density rechargeable lithium batteries 34 and he Whittingham and Yoshino shared the 2019 Nobel Prize in Chemistry for their research in lithium ion batteries 33 University of Texas edit From 1986 Goodenough was a professor at The University of Texas at Austin in the Cockrell School of Engineering departments of Mechanical Engineering and Electrical Engineering 35 During his tenure there he continued his research on ionic conducting solids and electrochemical devices he continued to study improved materials for batteries aiming to promote the development of electric vehicles and to help reduce human dependency on fossil fuels 36 Arumugam Manthiram and Goodenough discovered the polyanion class of cathodes 37 38 39 They showed that positive electrodes containing polyanions e g sulfates produce higher voltages than oxides due to the inductive effect of the polyanion The polyanion class includes materials such as lithium iron phosphates that are used for smaller devices like power tools 40 His group also identified various promising electrode and electrolyte materials for solid oxide fuel cells 26 He held the Virginia H Cockrell Centennial Chair in Engineering 41 Goodenough still worked at the university at age 98 as of 2021 42 hoping to find another breakthrough in battery technology 43 44 On February 28 2017 Goodenough and his team at the University of Texas published a paper in the journal Energy and Environmental Science on their demonstration of a glass battery a low cost all solid state battery that is noncombustible and has a long cycle life with a high volumetric energy density and fast rates of charge and discharge Instead of liquid electrolytes the battery uses glass electrolytes that enable the use of an alkali metal anode without the formation of dendrites 45 44 46 47 However this paper was met with widespread skepticism by the battery research community and remains controversial after several follow up works The work was criticized for a lack of comprehensive data 48 spurious interpretations of the data obtained 48 and that the proposed mechanism of battery operation would violate the first law of thermodynamics 49 50 In April 2020 a patent was filed for the glass battery on behalf of Portugal s National Laboratory of Energy and Geology LNEG the University of Porto Portugal and the University of Texas 51 Advisory work edit In 2010 Goodenough joined the technical advisory board of Enevate a silicon dominant Li ion battery technology startup based in Irvine California 52 Goodenough also served as an adviser to the Joint Center for Energy Storage Research JCESR a collaboration led by Argonne National Laboratory and funded by the Department of Energy 53 From 2016 Goodenough also worked as an adviser for Battery500 a national consortium led by Pacific Northwest National Laboratory PNNL and partially funded by the U S Department of Energy 54 55 Distinctions edit nbsp Goodenough receiving the 2009 Enrico Fermi Award from U S Energy Secretary Steven Chu Goodenough was elected a member of the National Academy of Engineering in 1976 for his work designing materials for electronic components and clarifying the relationships between the properties structures and chemistry of substances He was also a member of the American National Academy of Sciences and its French Spanish and Indian counterparts 56 In 2010 he was elected a Foreign Member of the Royal Society 57 The Royal Society of Chemistry grants a John B Goodenough Award in his honor 28 Goodenough received the following awards Fermi Award 2009 alongside metallurgist Siegfried Hecker 58 National Medal of Science 2013 presented by U S President Barack Obama 59 Draper Prize in engineering 2014 60 Welch Award in Chemistry 2017 61 62 C K Prahalad Award 2017 63 64 Copley Medal of the Royal Society 2019 65 Nobel Prize in Chemistry 2019 alongside M Stanley Whittingham and Akira Yoshino 5 Goodenough was 97 when he received the Nobel Prize He remains the oldest person ever to have been awarded the prize Works editArticles edit John B Goodenough 1955 Theory of the role of covalence in the Perovskite type Manganites La M II MnO3 Phys Rev 100 2 564 573 Bibcode 1955PhRv 100 564G doi 10 1103 physrev 100 564 K Mizushima P C Jones P J Wiseman J B Goodenough 1980 LixCoO2 0 lt x lt 1 A new cathode material for batteries of high energy density Mater Res Bull 15 6 783 799 doi 10 1016 0025 5408 80 90012 4 S2CID 97799722 John B Goodenough 1985 B Schuman Jr et al eds Manganese Oxides as Battery Cathodes PDF Proceedings Symposium on Manganese Dioxide Electrode Theory and Practice for Electrochemical Applications 85 4 Re Electrochem Soc Inc N J 77 96 Lightfoot P Pei S Y Jorgensen J D Manthiram A Tang X X amp J B Goodenough Excess Oxygen Defects in Layered Cuprates Argonne National Laboratory The University of Texas Austin Materials Science Laboratory United States Department of Energy National Science Foundation September 1990 Argyriou D N Mitchell J F Chmaissem O Short S Jorgensen J D amp J B Goodenough Sign Reversal of the Mn O Bond Compressibility in La1 2Sr1 8Mn2O7 Below TC Exchange Striction in the Ferromagnetic State Argonne National Laboratory The University of Texas Austin Center for Material Science and Engineering United States Department of Energy National Science Foundation Welch Foundation March 1997 A K Padhi K S Nanjundaswamy J B Goodenough 1997 Phospho Olivines as Positive Electrode Materials for Rechargeable Lithium Batteries PDF J Electrochem Soc 144 4 1188 1194 Bibcode 1997JElS 144 1188P doi 10 1149 1 1837571 S2CID 97625881 Archived from the original PDF on July 23 2018 John B Goodenough 2004 Electronic and ionic transport properties and other physical aspects of perovskites Rep Prog Phys 67 11 1915 1973 Bibcode 2004RPPh 67 1915G doi 10 1088 0034 4885 67 11 R01 S2CID 250915186 Goodenough J B Abruna H D amp M V Buchanan Basic Research Needs for Electrical Energy Storage Report of the Basic Energy Sciences Workshop on Electrical Energy Storage April 2 4 2007 United States Department of Energy April 4 2007 John B Goodenough Faculty The University of Texas at Austin Mechanical Engineering Department May 3 2005 Archived from the original on September 28 2011 Retrieved August 23 2011 Books edit Goodenough John B 1963 Magnetism and the Chemical Bond Interscience Wiley New York ISBN 0 88275 384 3 nbsp Goodenough John B 1973 Les oxydes des metaux de transition Paris Gauthier Villars Madelung Otfried Goodenough John B 1984 Physics of non tetrahedrally bonded binary compounds 3 Berlin Springer ISBN 3 540 12744 5 OCLC 80307018 Goodenough John B ed 1985 Cation ordering and electron transfer Berlin Springer ISBN 3 540 15446 9 OCLC 12656638 Goodenough John B ed 2001 Localized to Itinerant Electronic Transition in Perovskite Oxides Structure amp Bonding V 98 PDF Huang Kevin Goodenough John B 2009 Solid oxide fuel cell technology principles performance and operations Cambridge UK ISBN 978 1 84569 651 1 OCLC 864716522 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link Goodenough John B 2008 Witness to Grace PublishAmerica ISBN 978 1 60474 767 6 OCLC 1058153653 See also editJunjiro Kanamori Koichi Mizushima scientist Rachid YazamiReferences edit Thackeray M M David W I F Bruce P G Goodenough J B 1983 Lithium insertion into manganese spinels Materials Research Bulletin 18 4 461 472 doi 10 1016 0025 5408 83 90138 1 John B Goodenough Nobel Lecture Nobel Prize Expert Opinion with Dr Goodenough The Future of Battery Storage Expert Audience on YouTube Welcome to the Walker Department of Mechanical Engineering Walker Department of Mechanical Engineering a b Specia Megan October 9 2019 Nobel Prize in Chemistry Honors Work on Lithium Ion Batteries John B Goodenough M Stanley Whittingham and Akira Yoshino were recognized for research that laid the foundation of a wireless fossil fuel free society The New York Times Retrieved October 9 2019 John B Goodenough American Institute of Physics Mattes Eleanor Bustin 1997 Myth for Moderns Erwin Ramsdell Goodenough and Religious Studies in America 1938 1955 Scarecrow Press ISBN 978 0 8108 3339 5 via Google Books a b c The Nobel Prize in Chemistry 2019 NobelPrize org Retrieved February 23 2024 Collection Erwin Ramsdell Goodenough papers Archives at Yale archives yale edu Retrieved February 23 2024 Ward H Goodenough papers University of Pennsylvania Museum of Archaeology and Anthropology Retrieved February 23 2024 a b c d e f g McFadden Robert June 26 2023 John B Goodenough 100 Dies Nobel Winning Creator of the Lithium Ion Battery The New York Times Retrieved June 26 2023 a b c d Gregg Helen Summer 2016 His Current Quest The University of Chicago Magazine Retrieved February 23 2024 LeVine Steve February 5 2015 The man who brought us the lithium ion battery at the age of 57 has an idea for a new one at 92 Quartz publication Atlantic Media Company Retrieved February 5 2015 The Powerhouse America China and the Great Battery War 2016 S Levine https www amazon com Powerhouse America China Great Battery dp 0143128329 ref sr 1 2 crid GQR8F4EWZR4Y amp keywords Levin 2C Powerhouse amp qid 1697281419 amp sprefix levin 2C powerhouse 2Caps 2C90 amp sr 8 2 Friedman Gail Fall 2019 Battery Genius PDF Groton School Quarterly 19 21 October 14th Eternity News Comment 2019 02 44 PM Add a October 14 2019 Winners of this year s Nobel prizes follow Jesus Eternity News www eternitynews com au Retrieved May 8 2021 a href Template Cite web html title Template Cite web cite web a CS1 maint numeric names authors list link a b c Goodenough John B 2008 Witness to Grace PublishAmerica ISBN 978 1 4626 0757 0 via Google Books Belli Brita October 9 2019 Nobel laureate John Goodenough 44 inspires next generation of scientists YaleNews Retrieved February 23 2024 Goodenough John B 1952 A theory of the deviation from close packing in hexagonal metal crystals Ph D thesis The University of Chicago OCLC 44609164 via ProQuest The Nobel Prize in Chemistry 2019 a b Olinto Angela September 9 2019 University of Chicago alum John B Goodenough shares Nobel Prize for invention of lithium ion battery UChicago News Retrieved October 9 2019 Manthiram Arumugam July 8 2022 John Goodenough s 100th Birthday Celebration His Impact on Science and Humanity ACS Energy Letters 7 7 2404 2406 doi 10 1021 acsenergylett 2c01343 ISSN 2380 8195 Retrieved November 3 2022 Goodenough Nobel laureate who gave the world Li ion batteries passes away www thehindubusinessline com June 26 2023 Retrieved June 26 2023 UT Mourns Lithium Ion Battery Inventor and Nobel Prize Recipient John Goodenough UTexas edu June 26 2023 Retrieved June 26 2023 Jacoby Mitch September 13 2017 Goodenough wins 2017 Welch Award Chemical and Engineering News Retrieved October 10 2019 a b Perks Bea December 22 2014 Goodenough rules Chemistry World Retrieved October 10 2019 Ryan Dorothy October 9 2019 Longtime MIT Lincoln Laboratory researcher wins Nobel Prize in Chemistry MIT Lincoln Laboratory Retrieved February 23 2024 a b c d Royal Society of Chemistry John B Goodenough Award Royal Society of Chemistry Retrieved January 20 2015 J B Goodenough 1955 Theory of the Role of Covalence in the Perovskite Type Manganites La M II MnO3 Physical Review 100 2 564 Bibcode 1955PhRv 100 564G doi 10 1103 PhysRev 100 564 John B Goodenough 1958 An interpretation of the magnetic properties of the perovskite type mixed crystals La1 xSrxCoO3 l Journal of Physics and Chemistry of Solids 6 2 3 287 doi 10 1016 0022 3697 58 90107 0 J Kanamori 1959 Superexchange interaction and symmetry properties of electron orbitals Journal of Physics and Chemistry of Solids 10 2 3 87 Bibcode 1959JPCS 10 87K doi 10 1016 0022 3697 59 90061 7 https www amazon com Long Hard Road Lithium Ion Electric dp 1612497624 page 70 a b Kim Allen October 9 2019 John B Goodenough just became the oldest person at 97 to win a Nobel Prize CNN Retrieved October 10 2019 The 2001 17th Japan Prize Japan Prize Foundation Retrieved October 10 2019 Henderson Jim June 5 2004 UT professor 81 is mired in patent lawsuit Houston Chronicle Retrieved August 26 2011 MacFarlene Sarah August 9 2018 The Battery Pioneer Who at Age 96 Keeps Going and Going The Wall Street Journal Retrieved October 10 2019 Masquelier Christian Croguennec Laurence 2013 Polyanionic Phosphates Silicates Sulfates Frameworks as Electrode Materials for Rechargeable Li or Na Batteries Chemical Reviews 113 8 6552 6591 doi 10 1021 cr3001862 PMID 23742145 Manthiram A Goodenough J B 1989 Lithium insertion into Fe2 SO4 3 frameworks Journal of Power Sources 26 3 4 403 408 Bibcode 1989JPS 26 403M doi 10 1016 0378 7753 89 80153 3 Manthiram A Goodenough J B 1987 Lithium insertion into Fe2 MO4 3 frameworks Comparison of M W with M Mo Journal of Solid State Chemistry 71 2 349 360 Bibcode 1987JSSCh 71 349M doi 10 1016 0022 4596 87 90242 8 Lerner Louise October 9 2019 University of Chicago alum John B Goodenough shares Nobel Prize for invention of lithium ion battery The University of Chicago Retrieved October 10 2019 John Goodenough Department of Mechanical Engineering University of Texas Retrieved October 10 2019 permanent dead link Nobel Prize in Chemistry Goes to John Goodenough of The University of Texas at Austin October 9 2019 LeVine Steve February 5 2015 The man who brought us the lithium ion battery at the age of 57 has an idea for a new one at 92 Quartz Archived from the original on March 5 2016 a b Lithium Ion Battery Inventor Introduces New Technology for Fast Charging Noncombustible Batteries Cockrell School of Engineering February 28 2017 Retrieved March 11 2017 Braga M H Grundish N S Murchison A J Goodenough J B December 9 2016 Alternative strategy for a safe rechargeable battery Energy and Environmental Science 10 331 336 doi 10 1039 C6EE02888H Lithium ion battery inventor introduces new technology for fast charging noncombustible batteries EurekAlert February 28 2017 Solid State Batteries For Electric Cars A New Breakthrough By The Father of the Lithium Ion Battery on YouTube March 1 2017 a b Lacey Matt March 29 2017 On the skepticism surrounding the Goodenough battery Matt Lacey Retrieved November 13 2020 Steingart Daniel A Viswanathan Venkatasubramanian January 17 2018 Comment on Alternative strategy for a safe rechargeable battery by M H Braga N S Grundish A J Murchison and J B Goodenough Energy Environ Sci 2017 10 331 336 Energy amp Environmental Science 11 1 221 222 doi 10 1039 C7EE01318C ISSN 1754 5706 Steingart Dan September 5 2017 Redox without Redox Medium Retrieved November 13 2020 Schmidt Bridie April 6 2020 Li ion co inventor patents glass battery that could upturn auto industry The Driven Retrieved April 7 2020 Enevate Adviser Shares Nobel OCBJ October 9 2019 Retrieved February 28 2020 His current quest The University of Chicago Magazine Retrieved January 28 2020 Ssz57 July 27 2016 Battery Research Consortium Chosen by DOE to Advance Electric Cars UT News Retrieved January 28 2020 a href Template Cite news html title Template Cite news cite news a CS1 maint numeric names authors list link Charging Up the Development of Lithium Ion Batteries Energy gov Retrieved January 28 2020 John B Goodenough National Academy of Engineering 2014 Retrieved October 10 2019 John Goodenough Royal Society Retrieved March 20 2012 Secretary Chu Names 2009 Enrico Fermi Award Winners Press release APS Physics April 2010 Retrieved October 10 2019 Obama honors recipients of science innovation and technology medals CBS Retrieved March 9 2013 2014 Charles Stark Draper Prize for Engineering Recipients National Academy of Engineering Retrieved October 10 2019 Past Award Recipients Welch Award in Chemistry Retrieved June 22 2020 The Welch Foundation October 13 2017 2017 Welch Award Dr John B Goodenough via Vimeo Prahalad Award 2017 Retrieved June 22 2020 Video 4 mins YouTube Archived from the original on November 17 2021 Inventor of the lithium ion battery Professor John Goodenough awarded Royal Society s prestigious Copley Medal Royal Society royalsociety org Further reading editJohn N Lalena David A Cleary 2005 Principles of Inorganic Materials Design PDF Wiley Interscience pp xi xiv 233 269 ISBN 0 471 43418 3 External links edit nbsp Scholia has an author profile for John B Goodenough Faculty Directory at University of Texas at Austin Array of Contemporary American Physicists History of the lithium ion battery Physics Today Sept 2016 1 hour interview with John Goodenough on YouTube by The Electrochemical Society October 5 2016 Are Solid State Batteries about to change the world Joe Scott November 2018 Goodenough and team research on more energy dense solid state Li ion chemistry featured 3 35 12 45 Pr John Goodenough s interview GOODENOUGH John B 2001 05 Sciences histoire orale on Ecole superieure de physique et de chimie industrielles de la ville de Paris history of science website John B Goodenough on Nobelprize org nbsp including the Nobel Lecture Designing Lithium ion Battery Cathodes December 8 2019 Retrieved from https en wikipedia org w index php title John B Goodenough amp oldid 1218591958, wikipedia, wiki, book, books, library,

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