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Collaborative Doctoral Project (PhD Position) - AI-guided design of scaffold-free DNA nanostructures
nano-structures. In this project, we will combine numerical models, experiments, and artificial intelligence (AI) to guide the design of specific DNA nanoconstructs. The primary goal is to build an AI
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using in-house cells at the Swiss Light Source (SLS) and at the European Synchrotron (ESRF) and analyse the results. They will perform Nano Raman/SERS experiments and investigate the photochemical
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. student to significantly push the state-of-the-art and define new standards in the field. Our group works in a new state-of-the-art quantum nanophotonics lab and in the national center for nano- and micro
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the interfacial phenomena between water contaminants and adsorbent materials. As a member of the “Nano-Micro-Macro. Structure in Materials” research group, led by Prof. Joerg Jinschek, you will push the boundaries
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Your Profile: An excellent master’s degree with strong background in nano science, materials science, chemistry, chemical engineering, physics or related Experience with modeling of reaction kinetics
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, and a strong interest in applying advanced physical and computational methods to real-world challenges in energy and environmental technologies. The research will focus on the nano-architecture
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Science. The research group studies electronic and electromechanical components and develops new concepts for nanoscale materials, devices and systems using nano- and microfabrication techniques. One ambition of the IDS
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of Nanoelectronics, Nanoscience and Nanotechnology, Bioengineering or related field Experiences with nano- and microfabrication and processing, biomolecular surface modification, nucleic acids sensing Proficiency in
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close collaboration with colleagues at Imperial College and partners in Germany and the USA, with the overall aim of exploring novel functional states in ferroelectric domain walls for future nano
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microscopy center inaugurated in 2007. The research activities carried out at DTU Nanolab span from nano- and microfabrication with Silicon-based materials, carbon and polymers to the highly sophisticated