Exploiting deep sub-surface temperature-induced phase-transformations for an improved approach to semiconductor laser-dicing. This project aims to explore sub-surface laser-induced phase transformations in semiconductors and to exploit this novel method for ultra-fine laser cutting of semiconductor wafers without debris. The outcomes will be understanding new temperature-induced material modifications and innovative technology development relevant for the semiconductor industry.
Scaling manufacture of three-dimensional microstructures for the medical devices industry. Scaling manufacture of three-dimensional microstructures for the medical devices industry. This project aims to transform microscale three-dimensional prototyping into a cheap high volume manufacturing process through a novel soft embossing process. Although three-dimensional printing has been hailed as a disruptive technology, because it can print complex shapes directly from drawings, it is too slow at m ....Scaling manufacture of three-dimensional microstructures for the medical devices industry. Scaling manufacture of three-dimensional microstructures for the medical devices industry. This project aims to transform microscale three-dimensional prototyping into a cheap high volume manufacturing process through a novel soft embossing process. Although three-dimensional printing has been hailed as a disruptive technology, because it can print complex shapes directly from drawings, it is too slow at microscale for high volume manufacture. This research will develop microdevices for painless collection of blood, its analysis, and drug delivery. Cost-effective manufacture of these microdevices is expected to tap into the large medical devices industry, leading to establishing new businesses in the point-of-care and drug delivery markets.Read moreRead less
Formation and characterisation of continuous electrospun nanofibre yarns. Australia historically has a strong fibre and textile industry that can be augmented by embracing emerging nanotechnology. The proposed research will develop a technology that can greatly improve the productivity of nanofibres. These fibres can then be spun into continuous yarns and other form of textile products. The nanostructured products offer exceptional functions for biomedical and environmental applications. This ne ....Formation and characterisation of continuous electrospun nanofibre yarns. Australia historically has a strong fibre and textile industry that can be augmented by embracing emerging nanotechnology. The proposed research will develop a technology that can greatly improve the productivity of nanofibres. These fibres can then be spun into continuous yarns and other form of textile products. The nanostructured products offer exceptional functions for biomedical and environmental applications. This new technology has the potential to transform the Australian textile technology and fibre processing industry. Read moreRead less
Scaling microfluidics for cell manufacture. Scaling microfluidics for cell manufacture. This project aims to scale microfluidic devices for cell manufacture. Large-scale cell manufacturing processes (cell selection, gene transfer and culture expansion) are expensive, multistep and labour-intensive processes. Lab-on-a-chip devices can automate and integrate these complex processes at microscale. This project will evaluate a prototype bioreactor. This research is expected to make cell therapies ch ....Scaling microfluidics for cell manufacture. Scaling microfluidics for cell manufacture. This project aims to scale microfluidic devices for cell manufacture. Large-scale cell manufacturing processes (cell selection, gene transfer and culture expansion) are expensive, multistep and labour-intensive processes. Lab-on-a-chip devices can automate and integrate these complex processes at microscale. This project will evaluate a prototype bioreactor. This research is expected to make cell therapies cheap enough to become standard treatment, which would benefit patients with diseases that are incurable by conventional therapies (surgery and drug treatments). It should also benefit the Australian advanced manufacturing sector, particularly biopharmaceutical and cell therapy industries.Read moreRead less