Metal-air batteries with improved rate capability and safety for hearing applications. Hearing impairment affects on average 20% of the adult population in western society, with the impact being as high as 50% in older adults. Effective hearing devices require a significant amount of power, supplied by a battery, to support their function. Current batteries require very frequent replacement and represent a significant impediment to advances in the technology. This project will develop improved ....Metal-air batteries with improved rate capability and safety for hearing applications. Hearing impairment affects on average 20% of the adult population in western society, with the impact being as high as 50% in older adults. Effective hearing devices require a significant amount of power, supplied by a battery, to support their function. Current batteries require very frequent replacement and represent a significant impediment to advances in the technology. This project will develop improved energy and power density batteries which will lead to immediate implementation of more powerful signal processing algorithms, making hearing aids much more effective and appealing to the user. This, in turn, will improve recipient compliance and thus the quality of life for those with severe hearing impairment. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170100284
Funder
Australian Research Council
Funding Amount
$359,008.00
Summary
Stretchable strain sensors based on three-dimensional structured nano-carbon. This project aims to develop a class of stretchable strain sensors based on three-dimensionally (3D) structured carbon nanomaterials for wearable devices. The project plans to design and fabricate 3D-structured carbon with structures and physical properties for developing nanocomposites for strain sensing applications. The expected outcome is wearable sensors capable of monitoring human movements with potential applica ....Stretchable strain sensors based on three-dimensional structured nano-carbon. This project aims to develop a class of stretchable strain sensors based on three-dimensionally (3D) structured carbon nanomaterials for wearable devices. The project plans to design and fabricate 3D-structured carbon with structures and physical properties for developing nanocomposites for strain sensing applications. The expected outcome is wearable sensors capable of monitoring human movements with potential applications in personal health monitoring. These wearable devices could ultimately improve health care substantially while reducing its costs.Read moreRead less