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Advanced Battery Centre. We develop novel electrode and electrolyte materials, characterize them, evaluate and improve them with respect to battery performance, and study fundamental chemical processes and
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analysis where electricity storage in batteries is an important part. To determine the state of health (SoH) and thereby the value to be used for second life applications as well as for continuous monitoring
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that directly or indirectly addresses renewable energy system analysis where electricity storage in batteries is an important part. To determine the state of health (SoH) and thereby the value to be used
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an environment focused on research and development of materials and their applications within the energy storage area: the Ångström Advanced Battery Centre. We develop novel electrode and electrolyte materials
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Would you like to develop a new binder system for not only the state-of-the-art lithium-ion battery, but also for the next-generation battery? Would you like to test and use the materials developed
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Do you want to make a contribution to the development of binder for not only the state-of-the-art lithium-ion battery, but also for the next generation battery? Would you like to collaborate with
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materials. Apart from the focus, the synthesized materials could be also used for organic solar cells, supercapacitors and organic batteries. Research experience in the related fields is highly appreciated
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of precious metals and then come to include also rare earth elements (REE). Currently, research projects of the group cover the main waste-related global problems such as recycling of batteries, electronic