Sort by
Refine Your Search
-
of surfaces, which is currently not resolved issue to stop bacterial colonisation. Magnetic control of nanoparticles will be relevant across several biomedical imaging techniques. Application potential: anti
-
passive safety systems. You will examine the design and development of an advanced seatbelt pre-tensioner with electric motor drive including control and power modules to provide superior levels
-
This research project is to understand how machine learning can be exploited in the areas of target detection and tracking. Develop tracking expertise in a new student who can subsequently work
-
in biomedical engineering, mechanical engineering, or a related field. Experience in finite element modelling, biomechanics, or orthopaedic research is desirable. Strong analytical and problem-solving
-
ADM+S invites applications for PhD scholarships from students interested in the following areas: The development and distribution of automated decision-making (ADM) systems The applications
-
This PhD scholarship is for motivated researchers interested in developing advanced catalysts for ammonia synthesis and combustion, contributing to sustainable hydrogen storage and clean energy
-
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
-
Lipid nanoparticles are critical delivery systems for a wide range of biomedical applications. This project will involve studying the structural properties of lipid nanoparticles, modifying particle
-
the instructions detailed on the participating university’s webpage . b) The EOI is assessed by the supervisory team and shortlisted applicants are interviewed. c) The supervisory team nominates a preferred
-
submit your academic CV to the designated supervisor for consideration. The awarding of the PhD scholarship is contingent upon successfully passing the interview process. Please submit your academic CV