Speakers from the world's largest organizations will share their needs and experiences with many world first announcements. Learn of the requirements and case studies from end users and hear all about the latest innovations from companies across the value chain.
It is well established that graphene oxide GO has a stabilizing effect on the Li-S-cathode, and that this effect can be enhanced by doping of the GO. With direct access to GO from our sister-company Abalonyx, we now systematically modify and screen GOs in order to optimize the cathode stabilization. We have already reached 150 cycles with >99.5% cycle efficiency, as confirmed by Fraunhofer IWS in Dresden, Germany. Our short term target is 400 Wh/kg for 500 cycles, to be demonstrated in a real flight together with drone producer Robot Aviation AS, Norway, before summer 2020.
Dr. Ahmet Oguz Tezel is a research scientist at Graphene Batteries AS, Oslo. He conducted his M.Sc and PhD works at the department of Materials Science and Engineering at NTNU with an emphasis on electrochemistry. He also spent a year under the supervision of Petr Novák at the Paul Scherrer Institute. He currently undertakes engineering and design of various battery electrodes for Li-ion and Li-Sulphur batteries.
Graphene Batteries AS is a Norwegian technology company in Li-S-battery technology. We have developed a graphene oxide enhanced sulfur cathode with breakthrough 150 cycles with > 99.5% cycle efficiency. We now develop a high-surface area Li-anode to match the high charge density on the cathode. Having direct access to GO from our sister-company Abalonyx, we now systematically screen modified GOs in order to optimize the cathode stabilization further, the results confirmed externally by Fraunhofer ISW in Dresden, Germany. We have established a detailed technology development and commercialization road map through which we will scale the technology and make it available to wider markets. We are now implementing this technology on pouch-cell level and our first pouch cells will be utilized in real flights tests by a Norwegian drone producer early next year. Together with our investor, we are now in the process of setting up a pilot facility in Norway with the final goal of mass production of lithium sulfur cells by 2023.