25 renewable-energy "European Molecular Biology Laboratory (EMBL) " positions in Australia
Sort by
Refine Your Search
-
Category
-
Program
-
Employer
- University of Melbourne
- Curtin University
- The University of Newcastle
- The University of Queensland
- The University of Western Australia
- University of New South Wales
- University of Southern Queensland
- ; University of Exeter
- Australian National University
- CSIRO
- Central Queensland University
- Swinburne University of Technology
- University of Adelaide
- 3 more »
- « less
-
Field
-
currently limiting the growth of renewable energy. The goal is to develop innovative methodology and technology that will facilitate the widespread integration of renewable resources into electricity grids
-
to renewable energy and microgrids. The research gives you the opportunity to work closely with a Brisbane based fast-growing company designing and manufacturing dSTATCOMs, one of the world’s first energy
-
the energy transition and storage, powering consumable devices, electric vehicles, and driving the evolution of renewable energy systems. The rapid advancement of battery technologies has spurred global demand
-
grids, renewable energy technologies, manufacturing, construction and a host of defence related applications. Our vision is to translate excellence in engineering science into solutions that drive more
-
collaboration with the Melbourne Energy Institute Engage in electrical power systems research, mentor graduate researchers, and contribute to teaching and administrative duties within FEIT. Salary packaging
-
compressed air energy storage and direct use of heat and cooling from aquifers. Experimental design, interpretation of data and application of geochemical modelling to reveal and predict subsurface fluid-rock
-
an electricity market. The research will be conducted as a part of an international collaboration network – Mission Innovation 2.0, with participants from more than 14 countries, towards the ongoing energy
-
superfluidity, showcasing frictionless, zero-energy-cost flows. The project aims to advance our understanding of polaritons in the strongly interacting regime, particularly far from equilibrium, with the ultimate
-
recognition of excellent teaching. The PVC also has responsibility for quality assurance and enhancement, curriculum reform and renewal, and research in teaching and learning that centres on improving student
-
team of clinicians, cell biologists, physiologists, chemists and imaging specialists. You will gain expertise in a diverse range of methods encompassing material science, chemistry, physiology