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techniques using polymer- and nanomaterial-based coatings. These advanced coatings will enhance not only the chemical and thermal stability of the LFP materials but also improve their electrochemical
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aqueous liquids suffer from potential environmental impacts from solvent release. Encapsulating absorbents within polymer- and/or nanomaterial-based shells represents a promising solution. The successful
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research clusters including Energy Transition, Surface Technology and Metallurgy, Polymers and Composites, and Sustainable Materials. With some 100 researchers and PhD students and several national and
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training the next generation top scientists, innovators and entrepreneurs. Research at MSN is organized in different research clusters including Energy Transition, Surface Technology and Metallurgy, Polymers
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, Surface Technology and Metallurgy, Polymers and Composites, and Sustainable Materials. With more than 150 members and several national and international academic and industrial partners, MSN is emerging as