Energy

Developing a technical framework for testing printed solar technology
Help shape the future of solar energy. This iPhD project will develop a new technical framework for testing printed solar technologies—an emerging class of ultra-lightweight, flexible photovoltaics. Current international standards were designed for traditional, rigid panels and don't adequately address the unique characteristics of printed solar. Your research will fill this gap, leading to new testing methods that could accelerate the commercial adoption of printed solar and enable its use on structures that can’t support conventional panels. This is an exciting opportunity to contribute to the next generation of clean energy technologies with real-world impact.

Optimizing NatHERS (Nationwide House Energy Rating Scheme)
This Project aims to improve NatHERS Whole of Home ratings by developing mathematical models for heating and cooling appliances. Expected outcomes are an assessment of various heating and cooling appliances and insights into the most appropriate heating and cooling solutions tailored to specific climate zones. The potential benefit is to enhance the overall energy efficiency and thermal comfort of residential spaces nationwide.

Origin of hydrogen and helium occurrences
This Project seeks to understand the geological settings that facilitate the generation and accumulation of natural hydrogen. The expected outcome is to track the critical elements involved in the hydrogen and helium gas resources. This may result in fast-tracking the industrial production of natural hydrogen.

Li-ion battery separator material recovery and utilisation
Sodium battery is a promising alternative for energy storage if precious metal prices for making LIB remain high. This Project will mainly focus on the recovery of LIB separator material and explore economic applications of the recovered separator materials, such as turning it into high-value hard carbon for making sodium battery anode material.