Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- Monash University
- Curtin University
- Queensland University of Technology
- University of Adelaide
- Swinburne University of Technology
- University of Melbourne
- La Trobe University
- University of Southern Queensland
- CSIRO
- Flinders University
- Murdoch University
- Nature Careers
- The University of Newcastle
- ;
- James Cook University
- 5 more »
- « less
-
Field
-
polymer chemistry or tissue engineering. Strong skill set for data analysis and interpretation, coupled with excellent written and verbal communication abilities. Ability to work effectively in a
-
, using toxic molecular reactants rather than renewable electricity. One obvious solution toward integrating renewable electricity into chemical manufacturing is to electrify industrial organic reactions
-
proposed principal supervisor, and copy the link to this scholarship web page into question two of the financial details section. About the scholarship This project forms part of an NHMRC-funded Centre
-
your EOI, nominate Dr Steph Hutchison as your proposed principal supervisor, and copy the link to this scholarship website into question 2 of the Financial details section. About the scholarship
-
the precision and efficiency of preoperative evaluations, directly impacting clinical decision-making and patient outcomes. The integration of this technology into surgical risk scores will position Curtin
-
locations, fostering a rich and dynamic learning experience. Download the Program Guide for more information. Right across Australia, with 500 scholarships from Honours to PhD - your potential is limitless
-
transcript, a research proposal addressing the scholarship topic, using the required research proposal template , as well as a writing sample (e.g. copy of an article/essay/thesis you have written
-
EOI, nominate Associate Professor Francesca Frentiu as your proposed principal supervisor, and copy the link to this scholarship website into question 2 of the financial details section About the
-
prediction, signal tracking, fluid dynamics, and space exploration. Advancing Signal Modelling with Physics-Informed Neural Networks This project aims to develop Physics Informed Neural Networks (PINNs
-
systems, tephrochronology, and Quaternary geochronology. These tools will be applied, for example, to study the dynamics of active caldera complexes (e.g., Toba in Indonesia and/or Cerro Blanco in Argentina