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cheminformatics. Our ultimate goal is the computer-aided design of molecules and especially catalysts. Project background Catalysts are needed to produce the large amounts and types of chemicals that we use in
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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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doctoral student to investigate and develop methods which target energy system design and operation jointly. To date, the traditional methods of planning and operating energy systems have been mostly
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material behavior. The objective of the project is to eventually harness these attributes to design architected granular materials with improved and tunable behavior. A two-pronged approach will be used
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. Our team works on (i) advancing our understanding of mechanotransduction in 3D, (ii) designing hydrogel-based 3D scaffolds with tunable properties, and (iii) using these to design 3D disease models and
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, we are looking for a motivated doctoral student to investigate and develop methods which target energy system design and operation jointly. To date, the traditional methods of planning and operating
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challenges like declining participation, rising centralization, and adaptation issues, which can impede innovation and eventually their success.Role Description The successful candidate will undertake a
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Systematic experimental study using full body thermal manikin and HVAC monitoring manikin of various types of PCS including data analysis and data-driven model development Designing and performing a human
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data-driven model development Designing and performing a human comfort trial to validate the manikin study findings Writing and presenting scientific contributions (journal papers, conference
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engineering sciences within Switzerland. We perform cutting-edge research in the fields of future technologies, energy and climate, health innovation and fundamentals of nature. By performing fundamental and