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This project aims to develop novel catalysts and reaction systems for energy-efficient electrochemical conversion of captured CO2 into liquid fuels. Electrochemical Conversion of Captured CO
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PhD. The duration includes an extension of up to six months (PhD) if approved for your candidature. This is the full-time, tax exempt rate which will index annually. If the PhD is undertaken part-time
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PhD. The duration includes an extension of up to six months (PhD) if approved for your candidature. This is the full-time, tax exempt rate which will index annually. You will also receive a top-up to
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. Demonstrable experience advanced porous material synthesis and gas separation systems development essential. All applicants should email the following to Prof. Xavier Mulet via xavier.mulet2@rmit.edu.au: A cover
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What you'll receive You'll receive a stipend scholarship of $32,500 per annum for a maximum duration of 3.5 years while undertaking a QUT PhD. This is the full-time, tax-free rate. If you're
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requirements for a Doctor of Philosophy (PhD) at QUT, including any English language requirements for international students. You must also enrol as a full-time, internal student. Applicants will be assessed
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systems and uncover insights that can be applied to design more robust and interpretable deep learning systems. Aims This project is designed to unravel the intricate learning dynamics and the nature
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barrier—is disrupted in these conditions, how such dysfunction impairs drug delivery, and whether restoring vascular integrity can improve outcomes. This research is part of an NHMRC-funded Investigator
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Research scholarship funded by RMIT School of Computing Technologies. The scholarship is for 3 years; there would be a fee waiver and the standard stipend. Research scholarship funded by RMIT School
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Status: Closed Applications open: 1/07/2024 Applications close: 18/08/2024 View printable version [.pdf] About this scholarship Description/Applicant information Project Overview Digital Twin is an