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RMIT funded scholarship provides a stipend of $34,841 per annum (pro-rata) for 3 years. RMIT funded scholarship provides a stipend of $34,841 per annum (pro-rata) for 3 years. Applications are now open. Applications are now open. 1 November 2024. 1 November 2024. 1 (One). 1 (One). Standard RMIT...
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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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$34,841 per annum, for 3 years $34,841 per annum, for 3 years Applicants should meet RMIT HDR admission requirements. Applicants should meet RMIT HDR admission requirements. Open now Open now 5 July 2024 5 July 2024 To apply, please submit your CV and academic transcripts to Prof Feng Xia...
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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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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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This PhD Scholarship is funded by 2022 ARC Discovery Project “Modelling temporal evolution in spatial ecology with dynamical point processes". The world is undergoing rapid environmental change
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clearly outlining your experience in developing distributed systems/applications; also important to list any publications, awards, and relevant professional experience English language proficiency test
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A domestic scholarship to recruit a new cohort of domestic students in our HDR program in COBL. A domestic scholarship to recruit a new cohort of domestic students in our HDR program in COBL. 3.5 years 3.5 years Applications are now open. Applications are now open. 17/3/2024 17/3/2024 One (1)...
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the body. This project involves the development and application of advanced computer simulation methods to explore the mechanisms of ion conduction, selectivity and activation for ion channels that control
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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