Industrial Transformation Research Hubs - Grant ID: IH230100005
Funder
Australian Research Council
Funding Amount
$5,000,000.00
Summary
ARC Research Hub in Zero-emission Power Generation for Carbon Neutrality. This Hub aims to develop sustainable zero-emission power generation technologies to transform gaseous waste (mainly CO2) from our energy and manufacturing sectors into valuable products and create scalable pathways to market for driving industry transformation. This Hub expects to harvest renewable energy from the environment by using zero-emission power generators and then store it in green and safer batteries for convert ....ARC Research Hub in Zero-emission Power Generation for Carbon Neutrality. This Hub aims to develop sustainable zero-emission power generation technologies to transform gaseous waste (mainly CO2) from our energy and manufacturing sectors into valuable products and create scalable pathways to market for driving industry transformation. This Hub expects to harvest renewable energy from the environment by using zero-emission power generators and then store it in green and safer batteries for converting gaseous waste from sectors that cannot easily avoid emission into useful chemicals, which in turn realize carbon neutrality and negativity. The outcomes of this Hub are likely to be transformative for industry, the economy, and society in new-type renewable energy resources through decreasing environmental pollutants. Read moreRead less
Bioinspired Nanoionic Materials for Watt-scale Nano-Hydroelectric Generator. Inspired by electric eels, this project aims to develop next generation flexible and eco-friendly power sources that can directly generate electricity from water droplets for self-powered, light-weight wearable electronics. The goal will be achieved by designing a new class of nanoionic materials for nano-hydroelectric generators, through optimizing the ion diffusion channel, interfacial architecture, electrode configu ....Bioinspired Nanoionic Materials for Watt-scale Nano-Hydroelectric Generator. Inspired by electric eels, this project aims to develop next generation flexible and eco-friendly power sources that can directly generate electricity from water droplets for self-powered, light-weight wearable electronics. The goal will be achieved by designing a new class of nanoionic materials for nano-hydroelectric generators, through optimizing the ion diffusion channel, interfacial architecture, electrode configuration, and power management systems. The expected outcomes will be new nanoionic materials for a wide range of end uses in portable power supply with much higher capacity compared with conventional thin film batteries, significant advances in wearable electronics, and advancing knowledge in energy conversion sector.
Read moreRead less
Two-dimensional nanomaterials for wearable zinc ion battery . The project aims to develop a new wearable battery system, based on advanced two-dimensional (2D) nanomaterials with robust energy storage performance and lifespan, for industrial application across the rapidly emerging industries of health monitoring, movement tracking, and smart clothing. The project addresses the critical challenges of control functionalization of advanced 2D nanomaterials for developing wearable energy storage. Th ....Two-dimensional nanomaterials for wearable zinc ion battery . The project aims to develop a new wearable battery system, based on advanced two-dimensional (2D) nanomaterials with robust energy storage performance and lifespan, for industrial application across the rapidly emerging industries of health monitoring, movement tracking, and smart clothing. The project addresses the critical challenges of control functionalization of advanced 2D nanomaterials for developing wearable energy storage. The research outcomes are expected to result in a scalable approach, a variety of advanced 2D nanomaterials, and wearable new battery system, which will bring significant economic and environmental, social, and cultural benefits to Australia and the world.Read moreRead less