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As a flagship research center in nanoscience and nanotechnology, our mission is to open and explore new frontiers of knowledge at the nanoscale, and bring value to society in the form of new understanding, capabilities and innovation, while inspiring and providing broad training to the next...
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strategies Nanoparticle, coating, and membrane production Materials characterization techniques In vitro assays with commercial and primary cells Preclinical trials Knowledge in technology transfer, clinical
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exceptional original research findings or groundbreaking advancements in fundamental cutting-edge research and core technology. Making significant contributions to national strategic and socio-economic
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Devices (AEMD) group focuses on the material sciences and technology aspects of novel electronic materials, with a strong emphasis on graphene as well as other 2D materials (MoS2). The group also works
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strategies Nanoparticle, coating, and membrane production Materials characterization techniques In vitro assays with commercial and primary cells Preclinical trials Knowledge in technology transfer, clinical
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by the mission of serving national ecological civilization construction, NJFU fosters the coordinated development of multiple disciplines, including science, engineering, agriculture, literature
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, Biotechnology, Nanotechnology, Biomedical Engineering, or related fields. Proven experience in one or more of the following areas: o Electrochemical biosensors o Bioelectroanalysis and bioelectronics o Wearable
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cutting-edge technologies, and to foster human development through science and technology. The School of Life Sciences is at the forefront of this mission, with an international faculty, state-of-the-art
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, innovation-driven environment with strong industrial engagement.Position Overview:The selected candidate will be offered a 3-year renewable contract. The role is ideal for a motivated scientist or engineer
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atomic-layer-by layer engineer-ing of novel artificial metastable materials and interface superconductivity; (iv) studies of superconducting heterostructures, Josephson junctions, SQUIDS, nanowires, and