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-sustainable incumbents in light-emitting applications, such as rare-earth-based phosphors and heavy-metal-based quantum dots. We will explore the potential of these sustainable luminescent nanomaterials as
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nanomaterials, specifically carbon dots, derived from plant-based resources, to replace non-sustainable incumbents in light-emitting applications, such as rare-earth-based phosphors and heavy-metal-based quantum
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phosphors and heavy-metal-based quantum dots. The selected candidates will investigate the fundamental photophysical properties of these sustainable nanomaterials and explore their integration into light
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-sustainable incumbents in light-emitting applications, such as rare-earth-based phosphors and heavy-metal-based quantum dots. We will explore the potential of these sustainable luminescent nanomaterials in
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resonator – semiconductor quantum dot circuits that probe simultaneously the photonic and electronic response. Develop understanding of the quantum measurement processes by varying how strongly the photonic
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have previously used quantum mechanics-molecular mechanics (QM/MM) modelling to study the chemical step of the reaction, but our unpublished data from variants suggest modifications to the model we