Vanadium Oxide/Lithium Batteries Offer Promise of High Power, Long Life

Dean Sigler Electric Powerplants, Sustainable Aviation Leave a Comment

Henry Ford once brought a French metallurgist to Detroit, part of his plan to build cars with lighter, stronger steel.  Vanadium, which the French used in their automobiles, offered him the chance to make the Model T lighter and stronger, and its part in the car’s alloyed steel gave the Model T the longevity which followed it through one of the longest production runs in history. Now battery researchers are looking at another quality of this mineral, its ability to form a superior cathode for batteries that “could supply both high energy density and significant power density.   Combined with graphene, the wonder material du jour, vanadium oxide (VO2) could couple longevity echoing the Model T’s with charge and discharge rapidity similar to a supercapacitors. Materials scientist Pulickel Ajayan at Rice University created ribbons of vanadium oxide (VO2) thousands of times thinner than a sheet of paper, and combined those with atom-thick ribbons of graphene to form cathodes which were built …

Hope or Patience? Ennui or Exuberance?

Dean Sigler Electric Powerplants, Sustainable Aviation Leave a Comment

EV-World.com first stymied this editor’s hopes, and then gave cause to hope at an elevated level.  Two articles in jousting juxtaposition explored this dichotomy. Anthony Ingram took a jaundiced view of present battery progress and the hopes for a more energy-dense future. He noted that, “There’s kind of a running joke within the electric car world that the next generation of batteries is just a decade away. And the next time you ask, it’s still a decade away. Even a decade later. “Well, according to the U.S. Department of Energy, the next generation of usable battery technology is – wait for it – around ten years away.” He explains that today’s EVs are running on ten-year-old technology, and that the most promising current new technologies could power the next decade’s cars. Keying from remarks by Tony Hancock of the Department of Energy’s Kentucky-Argonne Battery Manufacturing Research and Development Center, Ingram explains that, “current lithium-ion chemistry still has room for improvement, …