Sort by
Refine Your Search
-
CQUniversity Rockhampton* (Relocation support available) Total Remuneration $120,134 to $133,098 pa^ (including salary of $101,515 to $112,470 plus 17% superannuation and leave loading) – with the opportunity
-
(until 29.04.2026), Full-Time Digital Services Directorate CQUniversity Rockhampton (other CQUniversity campus by negotiation, excl. SEQ region) (Relocation support available) Higher Education Worker Level
-
(until 29.04.2026), Full-Time Digital Services Directorate CQUniversity Rockhampton (other CQUniversity campus by negotiation, excl. SEQ region) (Relocation support available) Higher Education Worker Level
-
Opportunity Continuing, Full-Time Global Brand and Marketing Directorate CQUniversity Rockhampton, Melbourne, Sydney or working from home (other locations are negotiable) Relocation support available Higher
-
Management Directorate CQUniversity Cairns (Relocation support available) Attractive Salary – Circa $146,000 p.a. plus 17% superannuation Join an organisation with an unbreakable belief that quality education
-
-Time Digital Services Directorate CQUniversity Rockhampton Higher Education Worker Level 6 Total Remuneration $107,321 to $115,586 pa (including salary of $90,688 to $97,672 plus 17% superannuation and
-
), Part-Time (0.5FTE - 36.25hrs/fortnight) School of Health, Medical and Applied Sciences CQUniversity Rockhampton (other locations and work from home arrangements are negotiable)* Total Remuneration
-
@cqu.edu.au When submitting your application, please include: Your Current CV or Resume, and a 1-2 page Cover Letter highlighting your relevant skills, experience and suitability for the position. CQUniversity
-
Queensland University About this Opportunity School of Engineering and Technology CQUniversity Cairns, Melbourne, Rockhampton, Sydney Casual Rates Apply Join an organisation with an unbreakable belief
-
. Working at CQUniversity Join CQUniversity as a Postdoctoral Research Fellow in the School of Engineering and Technology, focusing on developing resilience frameworks for electrical energy networks against