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a suitable candidate is found. Inexpensive and flexible integrated circuits composed of environmentally friendly materials, like metal oxides, are poised to revolutionize emerging semiconductor
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properties comparable to their NMOS counterparts. This imbalance restricts the development of full CMOS logic, resulting in high-power monotype logic circuits. Despite extensive research, the development
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. The successful candidate will work on a research project that will investigate the neural circuit mechanisms of visual decision-making, learning, and attention. The project combines electrophysiology and
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materials such as semiconductor nanowires, graphene, or two-dimensional semiconductors. They will have experience with designing, fabricating and characterising arrays of devices such as integrated circuits
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materials such as semiconductor nanowires, graphene, or two-dimensional semiconductors. They will have experience with designing, fabricating and characterising arrays of devices such as integrated circuits
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will make a leading contribution to a project aiming at the development of a new type of superconducting quantum circuits and their integration with cryogenic quantum electronics (e.g. quantum logics and
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regions that regulate both food intake and hedonic reward signalling and long-term consumption of sugar alters nAChR expression in these reward circuits. We have shown that nAChR expression decreases during
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solutions. (months 1-6) Neuromorphic Computing Development: Collaborate with Professor Andrew Flewitt research lab to design neuromorphic circuits using flexible TFT-based logic incorporating spiking neurons
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processing. Essential knowledge/experience, consistent with that expected of a UK honours degree graduate: Dynamic systems – including Laplace transforms and state-space models. Mathematics of basic circuit