Academic level a ($80,755 - $109,536) + 17% super ...
On-site
Hands-on laboratory synthesis of 2d layered nanomaterials
Characterization of advanced materials
Materials manipulation for electrochemistry performance
Join a collaborative research environment focused on the discovery and development of advanced materials for energy storage applications
Job Summary
Join a collaborative research environment focused on the discovery and development of advanced materials for energy storage applications.
The role involves working closely with multidisciplinary teams and engaging with national and international collaborators in sustainable energy research.
Contribute to high-impact research aligned with RMIT’s strategic priorities, undertaking both independent and team-based projects in materials science, with a particular emphasis on electrochemistry.
Matching Summary
Join a collaborative research environment focused on the discovery and development of advanced materials for energy storage applications.
Salary
Academic Level A ($80,755 - $109,536) + 17% Superannuation
Skills & Requirements
Must-have
Hands-on laboratory synthesis of 2D layered nanomaterials
Characterization of advanced materials
Materials manipulation for electrochemistry performance
Materials manipulation for flexible/wearable energy applications
Nice-to-have
Building strong research networks
Contributing to securing research funding
Producing high-quality publications and potential patents
Collaborative multidisciplinary research environment
Key Requirements
PhD or equivalent in relevant field
Experience in laboratory synthesis of 2D layered nanomaterials
Experience in materials manipulation for electrochemistry
Experience in materials manipulation for flexible or wearable energy applications
Ability to work with and supervise higher degree by research candidates
Ability to build effective networks with colleagues