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, the synthesis can be performed in ultrapure environment (e.g., deionized water), which excludes any contamination of formed nanomaterials. This technique was advantageous for the synthesis of a variety of
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This project will examine the behaviour of nanocarriers at cell/bacteria surfaces and response to biological environments and molecules (such as proteins). Research will utilize a suite of cutting
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constrained resources. Many recommender systems now suggest items or services drawn from resource constrained environments such as tourist destinations. Unlimited use disrupts the limited capacity
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Are you an Australian PR, citizen, or an international student in Australia with a 1st class Honours in Civil, Environmental or Mechanical Engineering? RMIT Engineering PhD candidates get a laptop, world-class labs, research funding, travel support, and seminars. Are you an Australian PR,...
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Overview: 1x full time, fixed term (2 years) position available within the School of Science Salary Academic Level A6-A8 ($98,122 - $105,323 p.a.) + 17% Superannuation Based at the City campus but may be required to work and/or be based at other campuses of the University. About You As the...
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on the collaborative and multidisciplinary research environment within the Discipline of Materials, Manufacturing, and Mechatronics at the School of Engineering at RMIT. It will benefit from collaborations with with
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. The successful candidate will have a unique opportunity to work closely with researchers and technical experts from CSIRO in a multi-disciplinary team environment. The project will provide numerous research and
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construction wastes in an unstructured environment. The gripper has to adapt to wastes with different shape and size and tolerate collisions due to material moving during the picking. The touch and force sensors
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. This should provide significant benefits to defence capability, through enhanced magnetic anomaly detection in naval environments, and health outcomes, through neural sensing of brain signals at room
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This project aims to improve the biological applications of nanomaterials by understanding their fundamental interactions with proteins and cells in relevant biological environments. This will