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approaches for designing new supramolecular materials. Using, for example, a mixture of classical and quantum mechanics simulations, cheminformatics and coarse-grained simulations, we will uncover the design
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platforms, enable light manipulation for next-generation ultrafast applications in spectroscopy, sensing, and telecomms. Ultrafast lasers drive innovations from quantum technology to medical imaging, yet
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quantum mechanical calculations with continuum micromagnetic theory to bridge atomic and macroscopic length scales. Developing a predictive, fundamental theory linking stress to measurable magnetic signals
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bionanomaterials, self-assembled systems, hybrid nanomaterials, porous nanomaterials/MOFs; Designer Nanofunctions - quantum, photophysical, electronic, ionic & solid state/ biological, magnetic, plasmonic
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VR/AR, quantum tech, life-sciences, computing and biomedical imaging. The project will work on cutting-edge optical technologies alongside collaborators Prof Melissa Mather, Prof Dmitri Veprintsev, and
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architectures. From tamper detection to post-quantum countermeasures, you will explore state-of-the-art design techniques while participating in security assessments and collaborative reviews. The project