Sort by
Refine Your Search
-
Listed
-
Employer
- The University of Queensland
- Monash University
- Australian National University
- Deakin University
- RMIT University
- RMIT UNIVERSITY
- AUSTRALIAN NATIONAL UNIVERSITY (ANU)
- Macquarie University
- University of Adelaide
- University of New South Wales
- Curtin University
- Central Queensland University
- Flinders University
- CSIRO
- Charles Sturt University
- DEAKIN UNIVERSITY
- MACQUARIE UNIVERSITY - SYDNEY AUSTRALIA
- Queensland University of Technology
- The University of Western Australia
- UNIVERSITY OF WESTERN AUSTRALIA
- University of Sydney
- University of Tasmania
- Victoria University
- 13 more »
- « less
-
Field
-
companies. These three research focused opportunities are being sought as follows: Positions 1 and 2 will conduct research into melanoma treatment resistance. Ideal candidates will have knowledge of molecular
-
simulations using DFT (particularly of surface processes); kinetic Monte Carlo simulations; molecular dynamics simulations; classical and machine-learned force fields. Highly developed skills in scientific
-
resolution in dynamic Laue diffraction experiments on new alloys. These positions are suited to emerging researchers keen to explore and build on new areas and foster research and researcher development
-
an agile, dynamic, and innovative university committed to making a positive impact through our excellence in education, research and innovation and the contributions we make to the wider community. We
-
. Experience with CRISPR/Cas9 and plant transformation technology, along with basic molecular tools including qRTPCR, would be highly desired. The successful candidate may be required to complete a number of pre
-
demonstrate: A PhD in a relevant scientific discipline, with experience in molecular biology or translational research laboratory settings. A strong research track record, including high-quality publications
-
modelling and machine learning to join and lead a dynamic international team of early-career researchers. This exciting role is part of a cutting-edge project investigating the structural integrity
-
and MALDI/ESI, and lignin composition using TDA/GCMS. The postdoc will work closely with teams developing engineered plants to develop a deeper understanding of cell wall architecture. This is expected
-
, biologists, and clinicians. Key responsibilities will include: Research: Develop nanomaterial-based technologies for molecular detection and cell analysis. Integrate biosensing components (e.g., optical
-
Fellow. This role offers the chance to be at the forefront of innovation in chemical biology, with a focus on developing cutting-edge tools for molecular sensing and imaging. Under the guidance of Dr