Sort by
Refine Your Search
-
Listed
-
Program
-
Employer
- University of Sydney
- The University of Queensland
- UNIVERSITY OF SYDNEY
- Monash University
- Macquarie University
- CSIRO
- RMIT University
- Curtin University
- RMIT UNIVERSITY
- AUSTRALIAN NATIONAL UNIVERSITY (ANU)
- Australian National University
- La Trobe University
- University of Adelaide
- University of New South Wales
- Flinders University
- LA TROBE UNIVERSITY
- MACQUARIE UNIVERSITY - SYDNEY AUSTRALIA
- UNIVERSITY OF MELBOURNE
- 8 more »
- « less
-
Field
-
at the RMIT Melbourne CBD campus About the Role We are seeking a Postdoctoral Research Fellow to join RMIT’s Materials Modelling and Simulation group to apply classical Molecular Dynamics and Machine Learning
-
health lens to addressing hearing loss in adults. This program aims to reshape how hearing care is viewed and delivered—shifting from a specialist-driven, clinic-based model to a more accessible
-
technologies that support decarbonisation and clean energy goals. The successful applicant will contribute to the computational modelling and design of Prussian blue analogues, spin-crossover metal-organic
-
focused on advancing personalised and innovative approaches to addiction care. This dynamic and collaborative position works closely with a multidisciplinary team of neuroimagers, computational modellers
-
have as a minimum: Essential Extensive lab experience in nanobiotechnology or a related field, ideally working with self-assembled proteins/peptides and/or lipids (model cell membranes, vesicles, lipid
-
at the University of Sydney has an international reputation in the field of turbulent combustion, combustion modelling and advanced laser diagnostics. Specific research issues include the combustion of bio-fuels
-
We are seeking a Senior Research Fellow (Clinical) to lead research that supports the co-design, implementation, and evaluation of innovative, multidisciplinary team (MDT)-based primary care models
-
collaborating with industry partners on a project aimed at developing kinetic Monte Carlo simulations to model epitaxial growth processes. The goal is to control and optimise the growth of nanoscale structures
-
of transitions in both domains. The successful candidate will be expected to develop testable hypotheses that can be applied to new model systems, such as bee colonies, in collaboration with the project team
-
candidate will be expected to develop testable hypotheses that can be applied to new model systems, such as bee colonies, in collaboration with the project team. The research will be conducted in close