Pulse Check

EstherTakeuchi09

Esther S. Takeuchi, past President of ECS and key contributor to the battery system that is still used to power life-saving implantable cardiac defibrillators

As a membership and development intern, my responsibilities include the organizing and electronic conversion of paper membership documents as ECS makes the transition from file cabinets to e-file folders. While going through the archive of members my heart skipped a beat, so to speak, as I read the profile of Esther S. Takeuchi. There are countless articles and information about Dr. Takeuchi, so I won’t press you with too many of her accolades. While being a member ECS and under the funding of Wilson Greatbatch she developed the Li/SVO (silvervanadium oxide) battery that powers the majority of the world’s lifesaving cardiac defibrillators.

Among the many members of ECS, Dr. Takeuchi stood out to me due in part to her humble beginnings. Despite her origin she accomplished momentous feats that impacted millions of lives. Energy Technologies Area states, “Dr.Takeuchi has been credited with holding more patents (currently over 140) than any other living woman.” Dr. Takeuchi’s continued membership with ECS helps promote and encourage the retention of current members within the Society, and may also attract new members who believe in the importance of this line of work. It’s a true benefit for society that members like Esther S. Takeuchi present their work to the world so that we can all benefit from it.

Let’s see how your heart is doing. Take your first two fingers (not your thumb) to press lightly over the blood vessels on your wrist. Count your pulse for 10 seconds and multiply by 6 to find your beats per minute. According to WebMD, the normal resting heart rate for a healthy adult ranges from 50-70 bpm. However for people with an irregular heart rhythm, commonly known as arrhythmia, this count may be off as your heart could be beating too quickly, too slowly, or otherwise abnormally. For serious cases, an implantable defibrillator or pacemaker is implanted into the chest or abdomen to help regulate and effectively shock the heart back into a normal rhythm again. If an electrical device needs to be placed inside of a living body, it had better work, not leak, and last for a very long time. Innovative, revolutionary, and life-changing are just a few thoughts that come to mind when realizing the type of contributions members like Dr. Takeuchi make to not only keep the passion beating in the hearts of ECS members, but the rest of the world as well. Check out the her video interview with ECS, or download it as a podcast, to learn more about Dr.Takeuchi’s innovative and monumental work.

[Image: State University of New York at Buffalo]

We recently sat down with esteemed battery engineer Esther Takeuchi, the key contributor to the battery system that is still used to power the majority of life-saving implantable cardiac defibrillators.

Takeuchi’s career has made an immense impact on science and has been recognized globally. She currently holds more than 150 U.S. patents, more than any American woman, which earned her a spot in the Inventors Hall of Fame.

Her innovative work in battery research also landed her the National Medal of Technology and Innovation in 2008, where the president complimented her on her work that is “responsible for saving millions of lives.”

Listen to the podcast and download this episode and others for free through the iTunes Store, SoundCloud, or our RSS Feed. You can also find us on Stitcher.

PS: Check out the video version of this podcast and interviews with other world-leaders in electrochemical and solid state science as part of our Masters Series.

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Researchers believe that as work continues in relation to this study, battery technology will accelerate forward.Image: Stony Brook University

Researchers believe that as work continues in relation to this study, battery technology will accelerate forward.
Image: Stony Brook University

A collaborative group of six researchers from Stony Brook University and Brookhaven National Laboratory are using pioneering x-ray techniques to build a better and more efficient battery.

The researchers—four of whom are active ECS members, including Esther Takeuchi, Kenneth Takeuchi, Amy Marschilok, and Kevin Kirshenbaum—have recently published their internal mapping of atomic transformations of the highly conductive silver matrix formation within lithium-based batteries in the journal Science.

(PS: You can find more of these scientists’ cutting-edge research by attending the 228th ECS Meeting in Phoenix, where they will be giving presentations. Also, Esther Takeuchi will be giving a talk at this years Electrochemical Energy Summit.)

This from Stony Brook University:

In a promising lithium-based battery, the formation of a silver matrix transforms a material otherwise plagued by low conductivity. To optimize these multi-metallic batteries—and enhance the flow of electricity—scientists need a way to see where, when, and how these silver, nanoscale “bridges” emerge. In the research paper, the Stony Brook and Brookhaven Lab team successfully mapped this changing atomic architecture and revealed its link to the battery’s rate of discharge. The study shows that a slow discharge rate early in the battery’s life creates a more uniform and expansive conductive network, suggesting new design approaches and optimization techniques.

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ECS Masters – Esther Takeuchi

“Scientific discovery is a marathon, not a sprint. Sometimes you’re running faster or slower, but you always have to keep going.”
Esther Takeuchi

Esther Takeuchi was the key contributor to the battery system that powers life-saving cardiac defibrillators.


She currently holds more than 150 U.S. patents, more than any other American woman, which earned her a spot in the Inventors Hall of Fame. Her innovative work in battery research also landed her the National Medal of Technology and Innovation in 2008.

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You can also listen to this installment of ECS Masters as an audio podcast.