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
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
Colloid interactions and extraction in sustainable, water efficient paper manufacture. This project will investigate the causes of wood extractive deposits on modern high-speed printing surfaces. The project will also develop alternatives to prevent their deposition in an environmentally sustainable manner, and to remove them from the paper making process allowing their utilisation as valuable natural products.