Wearable thermoelectric textiles for portable microelectronics. Wearable thermoelectrics enable the power generation from the temperature difference between human body and ambient temperature by using thermoelectric effect. This project aims to design eco-friendly wearable thermoelectric textiles to realize high-efficiency solid-state power generation and meet individual needs with human comfort and health. The target is to achieve a power density in the as-designed thermoelectric textiles by th ....Wearable thermoelectric textiles for portable microelectronics. Wearable thermoelectrics enable the power generation from the temperature difference between human body and ambient temperature by using thermoelectric effect. This project aims to design eco-friendly wearable thermoelectric textiles to realize high-efficiency solid-state power generation and meet individual needs with human comfort and health. The target is to achieve a power density in the as-designed thermoelectric textiles by the optimization of materials and device design. The outcome will open up a new platform for the green and sustainable charge for portable microelectronics, which will lead to an innovative technology for energy management, which will place Australia at the forefront of wearable electronics and textile industry.Read moreRead less
Green catalysis for energy and environment using metal free nanostructured carbons. This project will advance the nanomaterial design and science underpinning the development of green technologies for important chemical production and water treatment. The outcomes of this project will help Australia in a leading position in the sustainable development of nanotechnology and water remediation.
Engineered and functionalized nanocarbons for clean energy and water. This project aims to develop a novel material platform based on metal-free graphitic carbon nitride and its functionalised composites in solar energy utilisation for water treatment, energy conversion to hydrogen, solar cell, and electrochemical battery in energy storage. The project aims to address the scientific challenges in rational nanomaterial synthesis, functionalisation and practical applications. The research outcomes ....Engineered and functionalized nanocarbons for clean energy and water. This project aims to develop a novel material platform based on metal-free graphitic carbon nitride and its functionalised composites in solar energy utilisation for water treatment, energy conversion to hydrogen, solar cell, and electrochemical battery in energy storage. The project aims to address the scientific challenges in rational nanomaterial synthesis, functionalisation and practical applications. The research outcomes are expected to provide a scientific basis for development of cutting-edge nanotechnologies for sustainable energy transformation and wastewater treatment, leading to significant benefits in Australian energy industries and environment.Read moreRead less
Smart self-propelled nanoreactors for catalytic environmental remediation. This project aims to develop nanomaterial design and technology to enable the applications of nanotechnology for environmental remediation. Various nanomotors with different asymmetric structures will be fabricated and tested for catalytic and photocatalytic degradation of aqueous pollutants. The physicochemical properties, motion behaviour and catalytic performance will be comprehensively investigated. The outcomes of th ....Smart self-propelled nanoreactors for catalytic environmental remediation. This project aims to develop nanomaterial design and technology to enable the applications of nanotechnology for environmental remediation. Various nanomotors with different asymmetric structures will be fabricated and tested for catalytic and photocatalytic degradation of aqueous pollutants. The physicochemical properties, motion behaviour and catalytic performance will be comprehensively investigated. The outcomes of the project will underpin the development of green technologies for sustainable energy conversion and water treatment. This will provide significant benefits, putting Australia in a leading position in the sustainable development of nanotechnology for sustainable energy supply and transformation as well as environmental and biomedical applications.Read moreRead less