Nobel laureate John Goodenough, a pioneer within the growth of lithium-ion batteries that in the present day energy thousands and thousands of electrical autos across the globe, died on Sunday only a month wanting his a hundred and first birthday.
The American was “was a pacesetter on the reducing fringe of scientific analysis all through the numerous many years of his profession,” mentioned Jay Hartzell, President of the College of Texas at Austin the place Goodenough was a school member for 37 years.
Goodenough was 97 when he acquired the 2019 Nobel Prize for Chemistry — together with Britain’s Stanley Whittingham and Japan’s Akira Yoshino, for his or her respective analysis into lithium-ion batteries — making him the oldest recipient of a Nobel Prize.
“This rechargeable battery laid the muse of wi-fi electronics comparable to cellphones and laptops,” the Royal Swedish Academy of Sciences mentioned on making the award.
“It additionally makes a fossil fuel-free world potential, as it’s used for all the things from powering electrical vehicles to storing vitality from renewable sources.”
Lately, Goodenough and his college staff had additionally been exploring new instructions for vitality storage, together with a “glass” battery with solid-state electrolyte and lithium or sodium metallic electrodes.
Goodenough additionally was an early developer of lithium iron phosphate cathodes as an alternative choice to nickel- and cobalt-based cathodes. LFP is quickly overtaking more-expensive nickel cobalt manganese in electrical automobile batteries, specialists say, as a result of it makes use of supplies which might be extra considerable and sustainable at a lot decrease value.
He was born on July 25, 1922, in Jena, Germany, to American mother and father.
After finishing a bachelors in arithmetic at Yale College, Goodenough acquired an masters and a PhD in physics from the College of Chicago. He grew to become a researcher and staff chief on the Massachusetts Institute of Expertise and later headed the inorganic chemistry lab on the College of Oxford.