11 energy-optimization Postdoctoral positions at Chalmers University of Technology in Sweden
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hydrometallurgical purification steps, and preparing recycled precursors for new battery materials. The position offers an opportunity to contribute to a field of growing relevance within sustainable energy systems
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Hydrogen is expected to play a key role in the energy and fuel mix of future sustainable transport systems. However, due to its small and light molecular structure, hydrogen exhibits significantly
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Parkinson. We use in vitro biophysical analysis to characterise protein aggregates and their formation in combination with advanced live cell fluorescence imaging and cell model development to study protein
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energy use and minimizing environmental impact. This collaborative effort brings together expertise in materials science, physics, polymer chemistry, and composite mechanics, with a particular emphasis on
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-neutral fuels, there is a possibility to achieve fossil free shipping. Hard wing sails are a common wind propulsor, but optimizing their performance requires advanced sheeting strategies to prevent stall, a
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, design and characterization of quantum processors Development and optimization of nano-fabrication processes for large-scale devices Development of optimal control techniches to achieve fast and high
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organic semiconductors, polymer blends, and composites. Our research advances new plastic materials for wearable electronics and energy technologies. Collaborations with other universities, research
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propagation problems, stochastic partial differential equations, geometric numerical integration, optimization, biomathematics, biostatistics, spatial modeling, Bayesian inference, high-dimensional data, large
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both basic and applied sciences, contributing to design support, regulatory advancements, and operational models for ships. Safety and energy efficiency in shipping are central to the division's
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in electric vehicle applications. Scientifically, the following parts will be included in the research: a) Fabrication and optimization of large-scale hBN films of high quality with high in-plane