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in Direct Ink Writing of Thermo-Electric Materials The Advanced Manufacturing Lab (am|z) at the Department of Mechanical & Process Engineering (D-MAVT) at ETH Zurich develops advanced manufacturing
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Advanced Bioelectronic & Electrical Conversion Research A World-Class Research Environment at the Nexus of Biology, Engineering, and Physical Sciences The Biotechnology and Bioengineering group led by Prof
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design (TCAD) tools should operate at the ab-initio and quantum mechanical level. Moreover, they should capture the interplay between electrical (voltage-induced currents), thermal (excitation of crystal
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charge of your own research You will take part in the professorship’s academic and social activities You will teach one course of your choice per semester (2 weekly hours) in the MAGPW or SiP programs
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addresses key challenges in quantum science by building and exploiting hybrid quantum systems consisting of individually controlled atoms and atomic ensembles. Current research directions include
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the drivers and impacts of technology politicization. Specifically, it studies the technology-politics interaction in the context of various LCTs, such as solar PV, wind turbines, electric vehicles, heat pumps
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well as for data processing, integration, and interpretation. Current research directions include, for example, applying DIA-based strategies in large-scale studies, combining electron- and photon-activation methods
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stems from limitations in current sampling approaches, which rely primarily on drift nets and are both labour‑intensive and inherently limited in resolution. Addressing these limitations requires a game