Willing collaborators: Negotiating Change in East Asian Media Production. This project examines how media producers and investors from China, Korea, Taiwan, and Hong Kong are moving into flexible and innovative forms of collaboration. Focusing on cinema, television, online video and mobile content in East Asia, the study enhances academic, industry and policy understandings of the dynamics of regional media production. In addition, the project investigates opportunities and challenges for Austra ....Willing collaborators: Negotiating Change in East Asian Media Production. This project examines how media producers and investors from China, Korea, Taiwan, and Hong Kong are moving into flexible and innovative forms of collaboration. Focusing on cinema, television, online video and mobile content in East Asia, the study enhances academic, industry and policy understandings of the dynamics of regional media production. In addition, the project investigates opportunities and challenges for Australian and other international media companies. It addresses the urgent need to foster understanding of the media industries and cultures of Australia's regional neighbours in order to better equip the nation and its screen sectors to participate in the forthcoming "Asian Century". Read moreRead less
Mobile Culture: A Biography of the Mobile Phone. The Mobile Culture project will investigate the mobile phone as cultural object, investigating its history, cultural production, consumption, political economy and regulation. It will contribute new knowledge on the culture of a widely used new media technology, mobile communications. The study will provide fresh insights into central theoretical questions in cultural and media studies, such as the relationship between culture and technology, and ....Mobile Culture: A Biography of the Mobile Phone. The Mobile Culture project will investigate the mobile phone as cultural object, investigating its history, cultural production, consumption, political economy and regulation. It will contribute new knowledge on the culture of a widely used new media technology, mobile communications. The study will provide fresh insights into central theoretical questions in cultural and media studies, such as the relationship between culture and technology, and the use of political economy for cultural analysis. The study will devise innovative methods for new media study. Outcomes include a two-volume book, and workshop proceedings on mobile consumption, use, and policy.Read moreRead less
Digital China: From cultural presence to innovative nation. This project aims to investigate how digital platforms and technologies help Chinese culture and ideas reach the world. While China's global cultural presence has increased, it is not seen as an innovative nation. The project examines how the Chinese government’s internet+ strategy changes power dynamics among political institutions, commercially motivated digital companies and online communities. The project will investigate internatio ....Digital China: From cultural presence to innovative nation. This project aims to investigate how digital platforms and technologies help Chinese culture and ideas reach the world. While China's global cultural presence has increased, it is not seen as an innovative nation. The project examines how the Chinese government’s internet+ strategy changes power dynamics among political institutions, commercially motivated digital companies and online communities. The project will investigate internationalisation strategies and consumption of Chinese culture on digital platforms in China, Australia, Hong Kong, Singapore and South Korea. It expects to understand the implications of China's digital ascendency and the lessons for Australia in the post-resources boom era.Read moreRead less
Design of Functionalized Mesoporous Fullerenes for Clean Energy. This project aims to design multifunctional, noble metal-free, and highly ordered mesoporous fullerene with a high conductivity and different porous structures, functionalised with nitrogen and/or metal and metal oxide nanoparticles in both powder and film forms. The most promising, stable, and highly efficient noble metal-free electrode catalyst system will be designed with the functionalised mesoporous fullerenes for polymer elec ....Design of Functionalized Mesoporous Fullerenes for Clean Energy. This project aims to design multifunctional, noble metal-free, and highly ordered mesoporous fullerene with a high conductivity and different porous structures, functionalised with nitrogen and/or metal and metal oxide nanoparticles in both powder and film forms. The most promising, stable, and highly efficient noble metal-free electrode catalyst system will be designed with the functionalised mesoporous fullerenes for polymer electrolyte membrane and direct methanol fuel cells. This novel highly efficient and low cost electrode system for fuel cells aims to help address clean energy generation and environmental problems and create new opportunities for Australian industries.Read moreRead less
Multifunctional 2D materials for sustainable energy applications. This project seeks to explore the great potential of novel graphene-like two dimensional (2-D) materials for energy applications. 2-D materials, which possess atomic or molecular thickness and infinite planar lengths, are regarded as a building block for many applications due to their unique nanostructures, electronic and mechanical properties. This project is focused on the design and exploration of layered two-dimensional artifi ....Multifunctional 2D materials for sustainable energy applications. This project seeks to explore the great potential of novel graphene-like two dimensional (2-D) materials for energy applications. 2-D materials, which possess atomic or molecular thickness and infinite planar lengths, are regarded as a building block for many applications due to their unique nanostructures, electronic and mechanical properties. This project is focused on the design and exploration of layered two-dimensional artificial graphene and graphene analogues with ‘on-demand’ properties to exploit advanced energy applications. There is now a pressing need to integrate graphene sheets into multidimensional and multifunctional systems with spatially well-defined configurations, and integrated systems with a controllable structure and predictable performance. Project outcomes may lead to next-generation devices in energy storage and other applications.Read moreRead less
Every Day Matters: Reducing School Non-Attendance in Autistic Students. Autistic children miss one day a week of school, three times more than their peers. This significantly impacts their learning, wellbeing and later, their vocational outcomes. This project aims to identify the factors that put autistic children at increased risk of missing school and map the supports and interventions used to reduce school non-attendance. Expected outcomes include an autism-specific model of the how and why s ....Every Day Matters: Reducing School Non-Attendance in Autistic Students. Autistic children miss one day a week of school, three times more than their peers. This significantly impacts their learning, wellbeing and later, their vocational outcomes. This project aims to identify the factors that put autistic children at increased risk of missing school and map the supports and interventions used to reduce school non-attendance. Expected outcomes include an autism-specific model of the how and why school non-attendance is elevated for autistic students. It is anticipated that this model make the important step of enabling teachers and professionals to identify which autistic children are most at risk of absenteeism and select the best strategies to support a positive and beneficial return to school.Read moreRead less
Designing plasmon-enhanced photocatalysts for solar-driven water pollutant removal. The outcomes of this program will lead to a new class of composite photocatalysts for efficient water purification using sunlight. Such technology will speed up the transition of Australian environmental and energy industries from a fossil fuel economy to renewable energy economy.
New generation nanostructured coatings with combined control of spectral and angular emissivity. The aim of this project is to generate a complete scientific understanding of a new generation of hybrid, tri-layered, optically-selective coatings. The new design paradigm combines the very different attributes of smooth and nanostructured layers so that superior and simultaneous control of both spectral and angular properties of light can be achieved. Existing theory will be extended so that quanti ....New generation nanostructured coatings with combined control of spectral and angular emissivity. The aim of this project is to generate a complete scientific understanding of a new generation of hybrid, tri-layered, optically-selective coatings. The new design paradigm combines the very different attributes of smooth and nanostructured layers so that superior and simultaneous control of both spectral and angular properties of light can be achieved. Existing theory will be extended so that quantitative analyses of these new systems and other hybrids become possible and new and improved fabrication techniques will be developed. The work will unlock new technological possibilities for coating performance and application and is likely to be associated with significant improvements in energy conservation and generation. Read moreRead less
Exploring electronic functionality in low-dimensional carbon and boron-nitride nanomaterials via advanced theoretical modelling. This project will spawn innovative carbon/boron nitride materials for next-generation electronics devices by devising new strategies to manipulate and control electronic structure as well as charge/spin transport properties. Outcomes will include technological breakthroughs leading to truly smaller, faster and smarter electronics materials.
Non-precious fuel cell cathode catalysts from carbon-based nanohybrids: a computational to experimental quest. This joint computational-experimental project will address significant problems including high cost, limited availability and poor performance in traditional platinum-based fuel cell technology. The outcomes are expected to help address global energy problems through the development of inexpensive fuel cell catalysts based on carbon nanohybrids.