One of the world’s leading energy storage researchers, Stony Brook University Distinguished Professor Esther Sans Takeuchi has won the 2018 European Inventor Award in the category “Non-EPO countries.” The European Patent Office (EPO) announced the winners of its 2018 innovation prize at a ceremony in Paris on June 7. Out of four US scientists nominated for the award, she is the only American to bring home Europe’s most prestigious prize of innovation.
Takeuchi is the William and Jane Knapp Endowed Chair in Energy and the Environment, a Distinguished Professor of Chemistry in the College of Arts and Sciences and in Materials Science and Chemical Engineering in the College of Engineering and Applied Sciences, and Chief Scientist of the Energy Sciences Directorate at Brookhaven National Laboratory.
“On behalf of Stony Brook University and Brookhaven National Laboratory, I am thrilled that Esther Takeuchi was selected for this award,” said Samuel L. Stanley Jr., President of Stony Brook University and Board Chair of Brookhaven Science Associates, which manages Brookhaven National Laboratory on behalf of the U.S. Department of Energy.
“Esther’s work is the epitome of innovation, as demonstrated in this breakthrough translational research for which she was recognized by the European Patent Office. She continues to follow the science toward the next big, revolutionary idea for energy storage, while mentoring others to follow in her footsteps as she executes on multiple grants from the Department of Energy and philanthropic foundations. Her star keeps getting brighter, and I’m proud that she is part of the Stony Brook University family.”
Professor Takeuchi invented the compact batteries that power most implantable cardiac defibrillators (ICDs). Used by millions of patients, ICDs greatly reduce incidence of heart attack by delivering life-saving shocks. Her design extended battery life significantly and reduced the frequency of battery replacement surgeries for patients already at risk due to heart problems. The lithium/silver vanadium oxide battery is just one of Sans Takeuchi’s 150 patents, making her one of the country’s most prolific women inventors.
“We took on the almost impossible challenge of developing a battery that would last five years, and have one million times higher power than the pacemaker battery,” said Takeuchi. “We achieved this through several innovations — a new cathode material, a highly conductive electrolyte, and a novel cell design that enabled high power.”
The daughter of Latvian emigrants, Esther Sans Takeuchi credits her parents for instilling in her a strong work ethic from a young age and for awakening her interest in science. Today, she is recognized as one of the world’s leading energy storage researchers and also one of the most successful U.S. woman inventors, with over 150 U.S. patents and 39 European patents to her name. Since 2012, she is the SUNY Distinguished Professor in the Materials Science and Engineering department at Stony Brook University, where she has conducted much of her research in her lab located in the Advanced Energy Research and Technology Center — one of 10 New York State Centers of Excellence — as well as the Chief Scientist of the Energy Sciences Directorate at Brookhaven National Laboratory in New York. After 40 years in industry and academia, she continues to work at the forefront of battery technology innovation.
She is a member of the US National Academy of Engineering and was awarded the prestigious National Medal of Technology and Innovation in 2010 by President Obama. After 40 years in industry and academia, she continues to work at the forefront of battery technology innovation.
The European Inventor Award is presented annually by the EPO to distinguish outstanding inventors from Europe and around the world who have made an exceptional contribution to social development, technological progress and economic growth. The winners were chosen by an independent international jury from a nomination list of more than 500 individuals and teams of inventors put forward for this year’s award.
I would like to add something of some distinguish energy on wireless energy.
A. With due respect can you have a little touchdown on a subject matter wherein a 10 hp generation could energize 10,000 households and wherein all energy sources are involved in the efficient and secure energy system and for climate change mitigation.
It concern a little about weight and the resultant of its delivered power punch.
B. And the wireless energy technology issue wherein an electric current induced by another electric current will result to wireless energy instead it should have been ++—+—-++—- polar currents to produce a wireless energy.
It should be a heavy traffic for polar currents to secure a wireless energy.