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The project will involve critical analysis of existing academic literature, participatory and co-design with users, development of novel technology prototypes, and evaluation using qualitative and
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formation process from biomass. $35,886 $35,886 Applications are now open. Applications are now open. 31/03/2025 31/03/2025 1 (one) 1 (one) Bachelors or master's in chemical engineering, meet English
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/10/2028 31/10/2028 1 (one) 1 (one) Candidates with biomedical engineering and biomedical science qualifications Candidates with biomedical engineering and biomedical science qualifications Please
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. 31/10/2028 31/10/2028 1 (one) 1 (one) Qualification in biomedical and biomechanical and mechanical engineering. Qualification in biomedical and biomechanical and mechanical engineering. Please submit
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honours in chemical engineering (Bachelors or Masters), Australian resident or international applicant subject to meeting English language requirements Having first class honours in chemical engineering
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These models are technology platforms that facilitate drug discovery and fundamental research. Our research is funded by Australian Research Council. This project aims to develop bio-microfluidic
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engineering background who has an interest in image reconstruction and/or modelling the mechanics of the heart. The project also has a sub aim of protecting the heart from radiation during radiation therapy
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Waste Heat is a huge challenge in the global energy transition. We are developing new materials and system to enhance the conversion of heat to electricity. Using Advanced Materials we
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resume and cover letter to Nhiem Tran (nhiem.tran@rmit.edu.au ) Send resume and cover letter to Nhiem Tran (nhiem.tran@rmit.edu.au ) Candidate should have a background in physics, engineering, or chemistry
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of offer for the program if all conditions have been satisfied. Locations Primary location of student: Royal Melbourne Institute of Technology, 124 La Trobe Street, Melbourne VIC 3000 Industry