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For students who are interested in computational and materials chemistry and learning to perform and analyse cutting-edge molecular modelling and advanced multiscale simulations. For students who are interested in computational and materials chemistry and learning to perform and analyse...
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approaches to explore problems associated with membrane charge transport. Ion channels are proteins that control the movements of charged molecules across cell membranes to enable electrical activity in
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transport and energy conversion. The incorporation of 2D nanomaterials as sacrificial layers enables precise control over nanochannel architecture, ensuring enhanced selectivity, mechanical robustness, and
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mechanisms of online media platforms by granting users full control over their sensitive information. Innovation. To meet users' varying privacy demands, this project put forward a graph-based user
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description of how these proteins respond to physiological stimuli to control electrical signalling the body. This project, in collaboration with researchers at Cornell University, USA, is funded by
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PhD Scholarship in Integrated Photonics for Telecommunication, Biosensing and Precision Measurements
Centre (InPAC) at RMIT University aims to create the next generation of integrated photonic circuits with unprecedented efficiency and innovative monitoring and control techniques. We are offering several
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be tested in this Project. Trapping of magnetic nanoparticles on nanotextured surfaces (magnetic and non-magnetic) using external magnet are expected to control initial adhesion and biofouling
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protein/enzyme preservation, thermal stability, and controlled release, targeting biomedical, enzymatic, food additive, environmental, and packaging applications. Project Overview: The research integrates
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with one or two cancers. The project will study biobanked samples from these "super survivor" individuals to test if they have specific health characteristics, set at just the right level to control
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processing, this project will extend the work to multi-qubit devices with novel control capabilities. The candidates will design, develop and measure multi-qubit devices, where they will learn a wide range of