Sort by
Refine Your Search
-
practice, to develop and evaluate accessible digital content environments that are transferable and scalable, and to develop and share tools for co-creating accessible digital content formats. Outcomes may
-
with industry and government Ability to work autonomously whilst displaying a strong commitment to work in a team environment, including the demonstrated ability to confidently and effectively work with
-
Australian disability policy, children's lived experience of disability, and high-quality child development and built environment data. Expected outcomes of the project include new, co-created insights for how
-
, 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
-
and clearly labeled. The ideal PhD candidate should possess strong analytical and problem-solving skills, a passion for research, and the ability to work effectively in a collaborative team environment
-
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
-
Elastomers are an important class of polymers that find applications in healthcare, aerospace, automotive, packaging and many other sectors. However, due to inherent physical, thermo-mechanical properties of elastomers, the additive manufacturing (AM) of elastomers remains challenging. Advanced...
-
of cells in the brain) constitutes a ‘neural code’ for representing information. The activity of brain cells "encodes" external information from our environment (i.e., sensory information received from our
-
-technical audiences. Previous demonstrated experience with software such as R, Stata, MPLUS, or similar. Previous interest in, or knowledge of, built environment and liveability factors such as active
-
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