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at the ETH Zürich and ZHdK, combining expertise in computational design, sound composition, acoustic simulation, virtual reality, psychoacoustics and the history of architecture. The project relies
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Ph.D. students to overcome this challenge using intelligent micromechanical systems. In the same way that automatic Swiss watches power themselves from the motion of the wearer, we will design and make
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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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already established at the Quantum Device Lab for superconducting qubits to enhance the readout of spin qubits. To achieve this, we plan to utilize well-designed Purcell filters, strongly coupled readout
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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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innovation and AI technologies. The position at the Chair of Circular Engineering for Architecture (CEA) offers a unique opportunity to contribute to cutting-edge research in sustainable construction and
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and validate biomarkers that can correlate brain recovery with clinical outcomes. Map brain measurements onto structural brain images. Plan and coordinate the conduction of clinical tests to validate