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ablation in liquid ambient (Andrei Kabashin, Aix-Marseille University), fabrication of laser treated surfaces and their further coating by magnetic materials (RMIT in collaboration in Melbourne), and
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As a means to address unsustainable resource consumption and waste generation in the fashion and textiles industry, the transition to a Circular Economy (CE) has become pivotal in Australia
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The value of the Scholarship is equivalent to an RMIT full Scholarship. This Scholarship will be available for 3.5 years. The value of the Scholarship is equivalent to an RMIT full Scholarship. This Scholarship will be available for 3.5 years. Applications are now open. Applications are now...
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(One). 1 (One). You must have a first class honour degree or masters in materials engineering, robotics or chemistry You must have a first class honour degree or masters in materials engineering
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degree, or equivalent, in fashion and/or textile design or related field; the candidate should have Australian citizenship or permanent residency. The candidate should hold a first class Honours degree
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masters. Send details CVs to supervisor tianyi.ma@rmit.edu.au . Send details CVs to supervisor tianyi.ma@rmit.edu.au . Background in materials science, chemistry, nanotechnology. Background in materials
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). 1 (One). You must have a first class honours or masters degree in mathematics, computing or chemistry. You must have a first class honours or masters degree in mathematics, computing or chemistry
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This project is supported by a full scholarship within the context of ARC discovery project DP240101215. Candidates with a background in Chemistry, Chemical Engineering and Materials science are
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background and/or previous experience or publications in materials science, chemistry, engineering physics, nanotechnology. Experience or strong interest in modelling, and/or clean energy. Preferable
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engineering, materials science, chemistry, and engineering. This project relies on polymer science and synthetic chemistry to design the novel polymer chemistry and nanofibre structures for advanced membrane