The true potential and limitations of fibres. This project aims to understand the fibre spinning process of nanomaterials to identify their true potential and limitations in wearable applications. The project is expected to lead to multifunctional materials that allow design and production of smart functional fibres and textiles that store and convert energy and sense, monitor and respond to human activities and external environments. The project outcomes are expected to accelerate the transform ....The true potential and limitations of fibres. This project aims to understand the fibre spinning process of nanomaterials to identify their true potential and limitations in wearable applications. The project is expected to lead to multifunctional materials that allow design and production of smart functional fibres and textiles that store and convert energy and sense, monitor and respond to human activities and external environments. The project outcomes are expected to accelerate the transformation of the fibre industry, which will have far reaching implications across research disciplines and sectors critical to technology, health, social, and economic future.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100517
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Development of hybrid carbon nanotube yarn and processing methods to create 3D smart materials and devices. The project aims to create 'intelligent' textiles by developing novel electroactive yarns and demonstrating scaled up processing through adapted knitting, weaving and braiding techniques. By tailoring their structure these unique carbon nanotubes can be made to act as sensors or artificial muscles.
Nanoarchitectonics of carbon nanomaterials. This project aims to develop a generic nanoarchitectonic method to create functional macroscopic carbon architectures using carbon nanomaterials. The project will manipulate the interactions among individual nanostructures by combining bottom-up synthesis with macroscopic wet spinning/knitting or three-dimensional printing assembly processes, leading to functionalities that contrast strongly with conventional nanotechnology. It will demonstrate the tec ....Nanoarchitectonics of carbon nanomaterials. This project aims to develop a generic nanoarchitectonic method to create functional macroscopic carbon architectures using carbon nanomaterials. The project will manipulate the interactions among individual nanostructures by combining bottom-up synthesis with macroscopic wet spinning/knitting or three-dimensional printing assembly processes, leading to functionalities that contrast strongly with conventional nanotechnology. It will demonstrate the technical feasibility of fabric supercapacitors, wearable strain/moisture sensors and carbon membranes. This project is expected to move the fundamental research of nanomaterials to advanced manufacturing techniques.Read moreRead less