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the Laboratory of Nano Particles at Empa and also matriculate in ETH Zürich. The research focuses on developing innovative plasmonic materials. Surface plasmon resonance (SPR) and localized surface
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manipulation of micro- and nano-size particles plays a leading role in diverse biomedical applications. Many of these applications require to perform several operations on particles and flow such as sorting
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of Nano Particles at Empa and also matriculate in ETH Zürich. Position starting from July 2025 or upon agreement. The research focuses on developing innovative plasmonic materials. Surface plasmon resonance
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skilled graduates interested in nanoscience and nanotechnology. The selected candidates are awarded with a PhD position, which they can place at any Nano research group at Chalmers and with which
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are predicted to experience high heat and particle fluxes in service, causing local temperatures potentially exceeding 1000 C and damage levels in the structure that can reach several dpa’s. In particular
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chemistry), graphene chemistry, advanced materials characterization (XRD, TGA, STEM, SEM, FTIR, particle size distribution, AFM), experimental physics, chemical engineering, materials science. You will be
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, these structure-property relationships of the assembled particles are not adequately understood. The technological visions of these new materials include novel solar cells, field amplification for highly sensitive
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excel in the future economy by acquiring a multi-dimensional perspective and mindset to become future leaders in glass science and in particular glass-based nano/micro-structured materials. Through
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adsorption of nano/micro-particles and different bio-based polymers to improve the properties of interest will also be carried out. The PhD student will be required to conduct a bibliographical study, propose
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that go far beyond those of the individual building blocks. To date, these structure-property relationships of the assembled particles are not adequately understood. The technological visions of these new