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Building (https://maps.app.goo.gl/w2uEKM6FQuTskaLG6 ) on LTH Campus Lund in newly renovated laboratories for power electronics, electric power systems, electric drive systems and battery systems. Our
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advanced analytical techniques for studies of organic compounds and biomolecules. Project description Project title: Nanoporous ionic separators for Na-ion batteries Supervisors: Prof. Jiayin Yuan (main
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For improved sustainability thermal loads from combustion of new fuels (e.g. hydro-gen), in energy storage systems under development (e.g. batteries), and in other industrial systems and processes, needs to be
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methods of lithium recycling and lithium extraction. This includes investigating different hydrometallurgical methods used for recycling of lithium from battery waste materials and understanding different
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. Renowned internationally for our contributions to vehicle aerodynamics, brake cooling, underhood, and battery thermal management, we perceive thermal optimization as an evolving field with rapid
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biomolecules. Project description Project title: Nanoporous ionic separators for Na-ion batteries Supervisors: Prof. Jiayin Yuan (main supevisor); Prof. Aji Mathew and Dr. Yu Zhang (co-supervisor) The position
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, emission-free operation is enabled even for vehicles and areas of use where battery operation is not a suitable technical solution, e.g., for heavy-duty vehicles. In the project, proton exchange membrane
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view towards their implementation in energy-relevant technologies, such as LEDs, solar cells, batteries and fuel cells. The primary tools to this end involve the use and development of techniques
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heat transfer problems form the base for all research in the RVAD group. Renowned internationally for our contributions to vehicle aerodynamics, brake cooling, underhood, and battery thermal management
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management. The problems will be grounded in applications to ensure that our research is relevant in real-world settings, including batteries, inventory management, power systems, etc. The exact research topic