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will examine the suitability of NIST-standardised post-quantum cryptographic (PQC) algorithms in realistic network settings and explore hybrid approaches that combine classical and post-quantum
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mechanisms for 6G networks, with a particular focus on delay-sensitive and resource-constrained IoT applications. The research will examine the suitability of NIST-standardised post-quantum cryptographic (PQC
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collaboration between the Process Intensification Group (PIG) and Materials, Concepts, and Reactors group (MatCoRe), so the successful candidate will be well supported. Additive manufacturing/3D printing and Net
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and cell-free biosensors, alongside novel mechanisms for sample processing. These aim to simplify nucleic acid detection and enable passive, self-reporting tests to transform surveillance and response
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quarantine pests/pathogens. You will evaluate technologies such as CRISPR-based systems, strand displacement reactions and cell-free biosensors, alongside novel mechanisms for sample processing. These aim
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if completed must be uploaded. Contact Details For further details about the studentship, please contact: Dr. Eugene Tang E-mail: eugene.tang@newcastle.ac.uk
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copy of your English language qualification if completed must be uploaded. Contact details For further details about the studentship, please contact: Dr. Eugene Tang E-mail: eugene.tang@newcastle.ac.uk
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preservation over geological time. By comparing these with freshly engineered biochars, we can determine whether persistence arises from the biomass type, formation process and/or the final composition and
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) and Edge Computing are undergoing a major transformation. Systems that once relied heavily on cloud-based processing and passive data collection are evolving into distributed networks of intelligent
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screened without further cumbersome purification. These methods will allow the parallel synthesis and testing of ca. 100 compounds in a single operation, potentially taking less than a week to design