Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- RMIT University
- Curtin University
- Monash University
- University of Adelaide
- The University of Newcastle
- Queensland University of Technology
- Flinders University
- University of Southern Queensland
- La Trobe University
- Murdoch University
- Swinburne University of Technology
- The University of Sydney
- University of Melbourne
- University of New England
- University of Sydney
- 5 more »
- « less
-
Field
-
analysis, particle analysis, electron microscopy, and synchrotron technology. The candidate should have experience in one or more of the following research areas: Mineral Processing, Chemistry, Chemical
-
immune responses to promote T cell-mediated tumour clearance. Methods: The laboratory uses world-class big-data omics analysis of blood immune cells, including RNAseq, epigenetics, multicolour
-
clinicians and community members, and contribute to the analysis, interpretation and reporting of study findings, as well as to the design of the intervention involving pharmacists and rural health staff. As
-
) design and analysis skills. Provide evidence of strong oral and written communication skills. Meet RMIT University's entry requirements for the Higher Degree by Research programs. The scholarship is open
-
related discipline Extensive lab experience is required, especially with bulk materials handling Knowledge of iron ore granulation and sintering is desirable Strong data analysis skills in Excel and Matlab
-
the following skills and qualifications (tailored to the specific project): Driven individuals who want to be a part of a world class team Some familiarity in healthcare or engineering/image based analysis
-
PhD Scholarship in ‘Using nanoparticles to enhance the immune response and improve vaccine efficacy’
sorting, multiplex cytokine analysis (Luminex), IVIS imaging, as well as ELISA, ELISPOT, immunohistology/immunofluorescence, proliferation and functional T cell assays. There is also potential scope to use
-
as well, resulting in increased survival. Methods: The laboratory uses world-class big-data omics analysis of blood immune cells, including RNAseq, epigenetics, multicolour flowcytometry (up to 27
-
and correlates will differ between younger adults and the elderly, and females compared to males. Methods: The laboratory uses world-class big-data ‘omics’ analysis of blood immune cells, including
-
uses world-class big-data omics analysis of immune cells, including RNAseq, genome-wide epigenetics, multicolour flowcytometry, cell sorting, multiplex cytokine analysis, as well as classical