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Field
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, the student will be able to utilise cutting edge equipment to study single atom catalysts anchored on defective graphene substrates. Catalysis is a key industrial process that underpins not only the supply
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anodes based on SiOC ceramic part containing either amorphous silicon or tin nanoparticles and carbon/graphene filler for sodium batteries. Two approaches will be used for the preparation of porous anodes
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qualification (usually PhD). Tasks: The successful candidate will investigate ion transport through atomically thin membranes made of 2D polymers and graphene derivatives in close collaboration with experimental
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: The successful candidate will investigate ion transport through atomically thin membranes made of 2D polymers and graphene derivatives in close collaboration with experimental partner groups MPI Halle and Leiden
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I supervise a wide range of PhD projects on experimental research into the electronic properties of novel quantum materials including topological insulators, graphene, and other atomically thin two
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entirely new physics and new applications in this space. 2D materials are the future. Graphene was just the beginning, and the possibilities before us now are endless. Our group aims to identify new
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, the student will be able to utilise cutting edge equipment to study single atom catalysts anchored on defective graphene substrates. Catalysis is a key industrial process that underpins not only the supply
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production of high-purity alumina and graphene from spent lithium-ion batteries. The techniques reduce the cost and time of the processing of degraded cathode materials and increase the value of the spent
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-contact atomic force microscopy in a wide array of systems such as heterostructures of two-dimensional van der Waals materials, atomically well-defined graphene nanoribbons, and artificial lattices
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and analysis of functional materials, with a special emphasis on 2D materials like graphene and related nanostructures. Position Overview This PhD project will explore the application of SEM