Advanced lanthanide-doped nanomaterials for new-generation security inks. Current security labelling technologies using pattern coding (“barcoding”) and/or UV-excited phosphorescent inks are relatively easily counterfeited. The project aims to identify optimal design, fabrication and surface treatment of infrared-excited lanthanide nanoparticles for use as pigments in UV-curable polymer inks. This is expected to result in a new-generation of jet-printable security inks with ultimate capability f ....Advanced lanthanide-doped nanomaterials for new-generation security inks. Current security labelling technologies using pattern coding (“barcoding”) and/or UV-excited phosphorescent inks are relatively easily counterfeited. The project aims to identify optimal design, fabrication and surface treatment of infrared-excited lanthanide nanoparticles for use as pigments in UV-curable polymer inks. This is expected to result in a new-generation of jet-printable security inks with ultimate capability for multidimensional coding (using multiple luminescence wavelengths and lifetimes) and robust readability. Expected outcomes are world leadership in codable inks for secure labelling against counterfeiting, greatly enhancing both global ink-product sales and the value of Australian exports subject to product substitution.Read moreRead less
Community Publishing in Regional Australia. This project aims to find new ways to support the increasing number of regional Australians, including regional Indigenous Australians, who use digital technologies to write and publish their own books. This project expects to create advanced knowledge of these community practices and their cultural and economic significance, shifting questions about the future of the book from multinational firms to regional communities. Expected outcomes include tool ....Community Publishing in Regional Australia. This project aims to find new ways to support the increasing number of regional Australians, including regional Indigenous Australians, who use digital technologies to write and publish their own books. This project expects to create advanced knowledge of these community practices and their cultural and economic significance, shifting questions about the future of the book from multinational firms to regional communities. Expected outcomes include toolkits to provide access and skills development for regional Australians, and market knowledge for industry. This should provide significant benefits including market development to ensure the Australian book industry’s sustainability and new methods to advance regional Australia’s culture.Read moreRead less
The rise of mistrust: Digital platforms and trust in news media. This project aims to investigate how trust and mistrust in news changes audiences’ behaviours as they increasingly access news through digital platforms. Observing the global crisis of trust, the project will undertake a longitudinal analysis of trust and mistrust in news, a four-country experiment that links trust and audience responses, and an in-depth qualitative study that provides specific contexts of these choices. The resear ....The rise of mistrust: Digital platforms and trust in news media. This project aims to investigate how trust and mistrust in news changes audiences’ behaviours as they increasingly access news through digital platforms. Observing the global crisis of trust, the project will undertake a longitudinal analysis of trust and mistrust in news, a four-country experiment that links trust and audience responses, and an in-depth qualitative study that provides specific contexts of these choices. The research will directly benefit policy makers, as it addresses questions of how to better secure trustworthy news content in an age of increasing dominance of digital platforms that algorithmically sort the range of news available to the Australian public.
Read moreRead less
Evaluating the Challenge of ‘Fake News’ and Other Malinformation. Encompassed by the disputed term ‘fake news’, overtly or covertly biased, skewed, or falsified reports claiming to present factual information present a critical challenge to the effective dissemination of news and information across society. This project conducts a systematic, large-scale, mixed-methods analysis of empirical evidence on the dissemination of, engagement with, and impact of ‘fake news’ and other malinformation in p ....Evaluating the Challenge of ‘Fake News’ and Other Malinformation. Encompassed by the disputed term ‘fake news’, overtly or covertly biased, skewed, or falsified reports claiming to present factual information present a critical challenge to the effective dissemination of news and information across society. This project conducts a systematic, large-scale, mixed-methods analysis of empirical evidence on the dissemination of, engagement with, and impact of ‘fake news’ and other malinformation in public debate, in Australia and beyond. It takes a triangulated approach, combining computational big data analytics with deep forensic analysis, to reveal the complex ‘fake news’ ecosystem, replace 'fake news' with more precise terminology, and provide recommendations for policy responses based on robust evidence.Read moreRead less
Smart Personalized Privacy Preserved Information Sharing in Social Networks. This project aims to create a novel and effective method for privacy protection at individual level, which is now a great concern of persons, businesses, and government agencies in this big data age. The project expects to build an automatic smart practical personalized privacy preserving system through removing the fundamental obstacles. The project will significantly advance human knowledge of privacy, and push Austra ....Smart Personalized Privacy Preserved Information Sharing in Social Networks. This project aims to create a novel and effective method for privacy protection at individual level, which is now a great concern of persons, businesses, and government agencies in this big data age. The project expects to build an automatic smart practical personalized privacy preserving system through removing the fundamental obstacles. The project will significantly advance human knowledge of privacy, and push Australia to the front line of the research field, and protect Australia better. Read moreRead less
New tastemakers and Australia's post-digital literary culture. This project aims to investigate the effect of digital technologies on taste-making in Australian literary culture. The project will examine how digital media and platforms such as eBooks, online forums, blogs and social media have changed how Australian literature is produced, distributed and consumed, and what this means for the future of Australian literature. The project expects to understand the effect of digital practices on Au ....New tastemakers and Australia's post-digital literary culture. This project aims to investigate the effect of digital technologies on taste-making in Australian literary culture. The project will examine how digital media and platforms such as eBooks, online forums, blogs and social media have changed how Australian literature is produced, distributed and consumed, and what this means for the future of Australian literature. The project expects to understand the effect of digital practices on Australian literary culture, and support the continued development and cultural significance of Australia’s book industry in a globalised market for literature.Read moreRead less
3D integrated crystalline UV optical lens-fiber couplers for astronomy. This project aims to create micro-optics for astronomical and bio medical applications by 3D sculpturing them out of crystals by ultra-short pulse lasers. This project will introduce a new 3D fabrication approach of optical probes which have self-aligned micro-optical elements and optical fibres for a wide spectral range and with high quality optical surfaces. Expected outcomes of this project include building new capabiliti ....3D integrated crystalline UV optical lens-fiber couplers for astronomy. This project aims to create micro-optics for astronomical and bio medical applications by 3D sculpturing them out of crystals by ultra-short pulse lasers. This project will introduce a new 3D fabrication approach of optical probes which have self-aligned micro-optical elements and optical fibres for a wide spectral range and with high quality optical surfaces. Expected outcomes of this project include building new capabilities in micro-optical probes for industrial environments, establishing new solutions for international astronomy partners, and developing new techniques to image through optical fibres. This should provide significant benefits by improving astronomical instrumentation and also lead to less invasive endoscopy.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230101344
Funder
Australian Research Council
Funding Amount
$437,854.00
Summary
Hierarchical Ta-Ti lattice materials by 3D printing and nanofabrication . This project aims to develop a novel approach to the manufacture of hierarchical Ta-Ti lattice materials with a fine nanoporous Ta surface through capitalizing on the advantages of metal 3D printing and a unique post nanofabrication process. This project expects to generate new fundamental knowledge in the design and manufacture of hierarchical metal lattice materials. Expected outcomes include a new advanced manufacturing ....Hierarchical Ta-Ti lattice materials by 3D printing and nanofabrication . This project aims to develop a novel approach to the manufacture of hierarchical Ta-Ti lattice materials with a fine nanoporous Ta surface through capitalizing on the advantages of metal 3D printing and a unique post nanofabrication process. This project expects to generate new fundamental knowledge in the design and manufacture of hierarchical metal lattice materials. Expected outcomes include a new advanced manufacturing method and a new class of highly biocompatible hierarchical Ta-Ti lattice materials. The former should benefit the Australian Manufacturing Industry for the manufacture of a variety of novel metal lattice materials or products while the latter has the potential for applications as implant materials.Read moreRead less
Mid-Career Industry Fellowships - Grant ID: IM230100090
Funder
Australian Research Council
Funding Amount
$1,053,046.00
Summary
Multi material 3D Printing. This project aims to further develop a new 3D printing technique commercialised by an Australian start-up company. Current electronics manufacturing is extremely capital intensive, slow and restrictive in 3D design. The 3D printing method proposed in this application will disrupt the current advanced manufacturing eco system; creating unique methods to unlock advances in diverse markets for example, photovoltaics, printed circuit boards and sensors. The expected outco ....Multi material 3D Printing. This project aims to further develop a new 3D printing technique commercialised by an Australian start-up company. Current electronics manufacturing is extremely capital intensive, slow and restrictive in 3D design. The 3D printing method proposed in this application will disrupt the current advanced manufacturing eco system; creating unique methods to unlock advances in diverse markets for example, photovoltaics, printed circuit boards and sensors. The expected outcomes of this project are to create new commercial opportunities for the next generation of 3D printed electronics. This will provide significant benefits, creating unique capability to manufacture devices in 3D - faster, cheaper and with reduced reliance on global supply chains.Read moreRead less
Empowering Wearable Smart Devices with 3D Printed Energy Storage. This project aims to design and develop functional nanomaterials and nanocomposites for high-performance wearable energy storage devices. A functional materials approach, together with precise control of device architecture through multi-materials additive manufacturing will be used to achieve maximum device performance. The expected outcomes include (i) fundamental understanding the structural-property relationships of materials ....Empowering Wearable Smart Devices with 3D Printed Energy Storage. This project aims to design and develop functional nanomaterials and nanocomposites for high-performance wearable energy storage devices. A functional materials approach, together with precise control of device architecture through multi-materials additive manufacturing will be used to achieve maximum device performance. The expected outcomes include (i) fundamental understanding the structural-property relationships of materials and devices and (ii) the establishment of the fundamental principles on the microfabrication of flexible energy storage devices. The project secures Australia’s leading position in materials chemistry and advanced manufacturing, bringing economic benefit through the commercialisation of wearable devices.Read moreRead less