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(1). To be eligible for this scholarship you must: Be an Australian citizen or an Australian permanent resident who is eligible and has applied to be Australian citizen at the time of project
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The aim of this project is to describe ion conduction and activation/inactivation processes by employing molecular dynamics and statistical mechanical methods. The expected outcome is an improved
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polymer science. Problem solving skills/experience in applied chemistry, mechanical or electrical engineering. For further information, please contact A/Prof. Ken Chiang (E: Ken.Chiang@rmit.edu.au
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Using cancer and vaccine clinical trials, the project will use RNAseq, epigenetics and flowcytometry, as well as classic immunological techniques. Using cancer and vaccine clinical trials
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reactions, apply them to PCFCs, and uncover the mechanisms underlining enhanced performance. Objectives The specific objectives are: 1) Study Advanced PCFC Fabrication and Catalyst Synthesis Track global
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: http://www.curtin.edu.au/research/futurestudents/admission.cfm Enquiries Dr Jun Li Associate Professor, School of Civil and Mechanical Engineering, Curtin University E: junli@curtin.edu.au T: +61 8 9266
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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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Institute for Biomedicine and Glycomics / Institute for Drug Discovery | Australia | about 2 months ago
About the PositionsWe have fantastic opportunities for PhD applications and scholarships. Our group uses a combination of state-of-the-art genetic, microscopy, engineering/screening techniques, and
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-time, internal student (unless approval for part-time and/or external study is obtained) have a background in mechanical or biomedical engineering, expertise in fluid mechanics, benchtop experimental
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-of-art AEMWE. Objectives The specific objectives include (1) To understand the reaction mechanism and kinetics for oxygen evolution reaction (OER) and hydrogen evolution reaction (HER) and ionic