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navigation; Advanced III-V semiconductor nanowire technology that exploits light to obtain a large number of interconnects with extremely low power consumption; Optically efficient stable molecular dyes
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across the vesicle bilayer will be achieved with protein nanowires, ionophores and pore-forming proteins. The project will involve protein purification, protein engineering, spectroscopy, photochemistry
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, optical, and anti-corrosion performance. Our investigations span nanoparticles, nanowires, lithographically patterned micro- and nano-objects, mesoporous and nanoporous structures, electrodeposited thin
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Quantum Internet. We focus on quantum control and manipulation of novel nanostructures at the single-photon and single-electron level, using nanowires, quantum dots, and hybrid semiconductor-atomic systems
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on quantum control and manipulation of novel nanostructures at the single-photon and single-electron level, using nanowires, quantum dots, and hybrid semiconductor-atomic systems. This Ph.D. project is focused
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navigation & timing devices (University of Adelaide). Project 1.2. Nitrogen-vacancy centres in diamond and other materials (RMIT). Project 1.3. Single Quantum - Superconducting nanowire single photon detectors