Sort by
Refine Your Search
-
$47,000 per annum (2025 rate). A four year Project Expense and Development package of $13,000 per annum. A 60 day Industry Engagement component with the industry partner. A structured professional
-
This scholarship will suit applicants with good knowledge or strong interest in structural and construction engineering, applied mathematics, circular economy as well as applications of artificial
-
surfaces, the project expects to highly simplify the design procedure, antenna structure, and active beam-forming electronics. By using advanced aerospace compatible manufacturing, the metasurface antennas
-
frameworks that model the users who are going to interact with them. These models are typically a simplified representation of users (e.g. using the relevance of items delivered to the user as a surrogate for
-
, HNMR, BET etc.) will be employed to characterize the carbon nanofiber structures. For molecular level, understanding, DFT modeling will be employed. The project would require fundamental investigations
-
You will explore high through put experimentation through robots, nature of metal corrosion inhibitor interactions at a fundamental level and will work with 3 world class teams to integrate systems
-
You will explore the nature of metal corrosion inhibitor interactions through advanced molecular modelling and integrate this understanding into the formulation of evolutionary algorithms
-
effective networks with colleagues resulting in collaborative outcomes. Excellent interpersonal and communications skills appropriate for interacting with higher degree by research candidates, staff and
-
with large-area, ultrathin thickness, and high flexibility, understanding their plasmonic enhancement mechanisms, and construction of artificial leaves to perform the solar-to-chemical conversion, which
-
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