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an extensive network of scientific contacts. This includes contacts to the Aalto startup scene and community. A way to be close to the research process while focusing on interesting computational problems and
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. In this project, our goal is to integrate the electro-oxidation of chemicals derived from plastic waste into processes that yield value-added molecules, while simultaneously co-generating green
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University. For more information on the general requirements and the application process for doctoral studies, please visit https://www.aalto.fi/en/doctoral-education/how-to-apply-for-doctoral-studies What we
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, and artificial intelligence meet to address complex environmental challenges. About the Project The Adaptive Design for AI-Driven Processes in Transforming Dynamic Landscapes (ADAPT) project develops
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a comprehensive multi-perspectives analysis approach, essential to track the impacts of the characteristics in different scales of the investigated processes on their overall techno-economic
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period, reopen the application process, and to consider candidates who have not submitted applications during the application period. Further information Professor Sebastian Szyller, e-mail "seb.szyller
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in one of the following: computational social science, ubiquitous computing, data science, or human-computer interaction. Programming skills needed to do data analysis (we mainly use Python) You can be
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field. Existing skills and knowledge in electronic device nanofabrication and clean room processing of 2D materials (required). Skill sets of handling low-temperature and ultra-high vacuum systems
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address complex environmental challenges. About the Project The Adaptive Design for AI-Driven Processes in Transforming Dynamic Landscapes (ADAPT) project develops scalable, data-driven design methodologies
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processing. The measurements are carried out at deep cryogenic temperatures in dilution refrigerators. Notably, we have demonstrated quantum entanglement between two micromechanical oscillators realized as