Capacitor cycle life and operating voltage are governed by the lack of impurities left over from the electrode casting process. Maxwell Technologies claims a solvent – less, dry process can double the cycle life of their capacitors. In this podcast I also discuss the viability of this dry process for manufacturing battery electrodes.
25. The dry electrode process of Maxwell Technologies (soon to be Tesla owned)
- energy storage
Published by Claudiu “Bobby” Bucur
Claudiu B. Bucur obtained his Ph.D. in 2008 from Florida State University under the mentorship of distinguished Leo Mandelkern Professor of Polymer Science, Joseph B. Schlenoff. He studied the manner in which polyelectrolyte multilayers assemble, and how doping them with ions changes their mechanical and thermodynamic properties. In 2010 he completed his postdoctoral studies at the USDA Agricultural Research Service Labs, where he investigated corrosion inhibition via biomembranes. Dr. Bucur then joined the Post Lithium Ion Research Group at the Toyota Research Institute of North America, where he focused on metallic anodes such as magnesium, lithium, sodium, and their electrolytes as well as high capacity conversion cathodes such as the sulfur cathode. He expanded upon his experience with polymers, corrosion, and interfaces and was able to advance many areas in the battery field. Currently, Dr. Bucur is Chief Engineer for new battery and solid electrolyte projects at Great Wall Motor, the largest SUV manufacturer in China. He is fascinated by energy storage and dreams of creating the ultimate battery. View all posts by Claudiu “Bobby” Bucur
One thought on “25. The dry electrode process of Maxwell Technologies (soon to be Tesla owned)”
Although you mentioned that there is not application for this dry technology in the Li-ion batteries, they claimed the opposite in their public presentations:
Click to access Maxwell-Needham-Conference-Deck.pdf