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focused on the development of new membrane materials and modules, membrane characterization, transport phenomena near and through membrane surfaces and the development of membrane processes and applications
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challenging for classical computing architectures. Some of your responsibilities will include: Design and develop mixed-signal circuits for implementing ONNs. Modeling, simulate and benchmark different
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energy minimization. In this project, you will further explore and exploit the potential of ONNs performing sense and compute functions. Some of your responsibilities will include: Design and develop
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sectors. At the department of Physical Geography at Utrecht University, we have developed the global hydrology and water resources model PCR-GLOBWB to analyse these global water challenges. As a PhD you
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manufacturing technologies and eager to develop and build experimental setups and combine this with physics-based modelling? Join us as a PhD candidate and contribute to making volumetric 3D printing predictable
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programme (CDP), an initiative by the Joint Research Centre (JRC) to train a new generation of doctoral graduates on the science-policy interface. For this joint project with the JRC of the European
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was the discovery and characterization of so-called Feshbach resonances in this mixture [Nat.Phys 14, 881 (2018) ]. Since then, we have developed several key insights and new tools, see Rev.Sci.Instr. 94, 073202
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(algorithms), and statistics. During this project, you will develop new methods to construct phylogenetic networks and generalize mathematical frameworks of phylogenetic network classes to tackle related
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regulatory phase-outs. MagHeat tackles this challenge head-on by developing a radically new heat pump technology based on the magnetocaloric effect (MCE). In MCE, certain solid-state materials heat up when
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partner AquaBattery (https://aquabattery.com ). The research team is complemented with another PhD student working on the development of bipolar membranes for enhanced water splitting and recombination