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. Empa is a research institution of the ETH Domain. In the Urban Energy Systems Laboratory we develop methods and tools to model, design, control and assess energy systems at various scales with a focus on
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respect to the propagation and confinement of mechanical power, using numerical and analytical methods You design and measure prototypes to validate the numerical models You delve into the possibilities
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design and measure prototypes to validate the numerical models You delve into the possibilities of several classes of materials, such as viscoelasticity or piezoelectricity, and identify the ideal solution
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Development of a hybrid modelling approach combining sensors on the infrastructure and vehicles Design and setup of dynamic objects for the AD test track Validation of the sensor selection methodology through
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multidisciplinary project aiming to discover novel protein and metabolite biomarkers specific for the early phases of chronic wound development. The project will be part of a larger initiative focused on the design
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initiative focused on the design of a precision, self-care integrated system to completely understand, simulate, and monitor skin wound evolution, with the ultimate aim to treat and prevent chronic wounds
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chemicals from CO2 while increasing selectivity and energy efficiency. Process and reaction engineering integrated into the design process helps to match requirements on process, reactor, and catalyst level
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. Empa is a research institution of the ETH Domain. Empa’s Laboratory Materials for Energy Conversion focuses on materials and device innovation for sustainable energy conversion and storage technologies
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to develop a new and improved Safe and Sustainable by Design (SSbD) Assessment framework. For this, CHIASMA will focus on developing New Approach Methodologies (NAMs) and improved Life Cycle Impact Assessment
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of the magnetic nanographenes using thin insulating layers such as NaCl and MgO to investigate their intrinsic properties collaboration with synthetic chemists and theoretical physicists to design and achieve