Researchers at the Karlsruhe Institute of Technology have come up with a new method to fill the electrodes that are present in lithium ion batteries. Electrodes in batteries are filled with pores measuring the size of a micrometer.
In order to extend the use of its cathode materials, namely, nickel, manganese and cobalt in lithium ion batteries, Umicore and 3M have signed a second technology license contract.
Researchers at the Department of Energy (DOE)’s Oak Ridge National Laboratory (ORNL) have utilized a novel technology called electrochemical strain microscopy to study the oxygen evolution/reduction reactions occurring in fuel cells, which will open the door for the development of enhanced materials and devices.
INRS researchers have achieved another breakthrough by developing a novel and enhanced iron-based catalyst for fuel cells. This is the second major advancement after the development of the first iron-based catalyst with ...
A critical challenge in the commercialization of solid oxide fuel cells is the selection and manufacture of components that will last for thousands of hours, but at an economical cost. Building on test results presented ...
Ballard Power Systems, a provider of clean fuel cell products, has received a commitment for a minimum purchase of 3,250 fuel cell stacks from Plug Power. The fuel cell stacks are destined for use in material handling operations and would be procured over the next 1 ½ years.
Hitachi Metals, a manufacturer of materials and components, has developed new metal interconnect materials that have greater strength and oxidation resistance. These materials are designed for applications in solid oxide fuel cells (SOFC).
Panasonic has opened its first residential fuel cell R&D centre in Langen, Germany. The new facility, called the Panasonic Fuel Cell Development Office Europe (PFCOE), is located in Panasonic’s European R&D centre in Germany (PRDCG).
The Georgia Tech-led research team has devised a self-cleaning method utilizing barium oxide nanoparticles. The method could make coal gas to power solid oxide fuel cells directly at operating temperatures as minimum as 750°C.
Researchers at the Carnegie Mellon University have developed a tiny biology-powered fuel cell.
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