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will be carried out within the Computational Materials Chemistry group and in close collaboration with experimental activities at the Ångström Advanced Battery Centre (ÅABC – https://kemi.uu.se
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of the transport sector is one of the leading contenders to rid these emissions, hence the use of batteries will play an increasing role in the energy transition needed to control unwarranted global climate change
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these emissions, hence the use of batteries will play an increasing role in the energy transition needed to control unwarranted global climate change. Big open questions are, amongst others: “What is the cost
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Supervisors: Dr. Ferran Brosa Planella, Dr. Radu Cimpeanu, Prof. Louis Piper Summary: Manufacturing not only has a significant impact on battery performance and lifetime, but also on cost and
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, to innovative batteries, intelligent drive systems and energy management, power electronics and charging infrastructure. In addition, we develop knowledge regarding business planning and consumer behavior, and we
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the potential to be used in a variety of novel applications outside its original use in the minerals industry, for example in the recycling of plastics or battery materials. However, there are many aspects of its
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, train yourself with different support, to become an expert in materials design and synthesis, and helps you to grow as an independent researcher in battery field. Project description The lithium-ion
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. New chemistries based on divalent metal ions, such as Mg(II), Ca(II), or Zn(II), are being explored for post-Li rechargeable batteries due to the abundance and low cost of these elements, as
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Underserved Communities Taking the energy transition forward in emerging and new frontier countries: complementary innovations in off-grid systems, multi-purpose energy hubs, battery repurposing and the
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helps you to grow as an independent researcher in battery field. Project description The lithium-ion battery is the dominant rechargeable energy storage devices. In order produce high-performance lithium