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of a collaboration that brings together the synthesis, colloidal self-assembly, and optical functionality of 2D materials. We study semiconductor nanoplatelets and correlate their ligand shell
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resume with professional and technical skills, and exploring the scientific and cultural diversity in Europe and North America? The graduate training program in Scalable 2D-Materials Architectures (2D
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Are you passionate about cutting-edge fundamental research on molecular and 2D materials heterostructures? Are you looking to pursue your PhD in an excellent, interdisciplinary research environment
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. Our research focuses on the established CRC/TRR 227 Ultrafast Spin Dynamics, the new CRC 1772 Heterostructures of Molecules & 2D Materials, and the new Cluster of Excellence for Chiral Electronics. We
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Are you passionate about cutting-edge fundamental research on molecular and 2D materials heterostructures? Are you looking to pursue research in an excellent, interdisciplinary research environment
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Are you passionate about cutting-edge fundamental research on molecular and 2D materials heterostructures? Are you looking to pursue your PhD in an excellent, interdisciplinary research environment
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. Our research focuses on the established CRC/TRR 227 Ultrafast Spin Dynamics, the new CRC 1772 Heterostructures of Molecules & 2D Materials, and the new Cluster of Excellence for Chiral Electronics. We
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a near-field optical microscope and an ultrafast laser system featuring tunable outputs in both the mid-infrared and visible spectral ranges. Your research will focus on 2D quantum materials and their
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to bridge phenomena in the typically separate mid-infrared and visible spectral ranges. We aim to advance the understanding of 2D quantum materials, activate new coupling channels to convert light between
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chemistry, materials science, energy materials, or a related field. Experience with 2D materials, MXene, and material characterization. Experience with electrochemical methods and material synthesis. Ability