Sociability, print and public culture in romantic period Britain and Australia. This project illuminates the life in the early colony by exploring the history of the earliest Australian printed document that has so far been discovered, a playbill for a theatrical performance in Sydney dating from 1796. Placing the document in a rich and complex context of print, circulation, and sociability, the project affirms the importance of such ephemeral literature as testimony to the values of fellowship ....Sociability, print and public culture in romantic period Britain and Australia. This project illuminates the life in the early colony by exploring the history of the earliest Australian printed document that has so far been discovered, a playbill for a theatrical performance in Sydney dating from 1796. Placing the document in a rich and complex context of print, circulation, and sociability, the project affirms the importance of such ephemeral literature as testimony to the values of fellowship and community that were foundational to Australian culture and which continue to be relevant to the health of a modern democracy.Read moreRead less
Revealing the atoms that control performance in photoactive perovskites. This project aims to develop new electron microscopy techniques that will unambiguously determine the elusive structures of photoactive perovskite compounds under static and operational conditions, while correlating crystal structure with solar cell device performance. Photoactive perovskites are promising photovoltaic materials, however, many are sensitive to air and irradiation. This has impeded a huge international resea ....Revealing the atoms that control performance in photoactive perovskites. This project aims to develop new electron microscopy techniques that will unambiguously determine the elusive structures of photoactive perovskite compounds under static and operational conditions, while correlating crystal structure with solar cell device performance. Photoactive perovskites are promising photovoltaic materials, however, many are sensitive to air and irradiation. This has impeded a huge international research effort to determine their structure reliably at the atomic scale. With these new techniques applied to leading compounds and devices, it is expected this project will reveal the structural effects controlling electrical properties and device performance and so enable the design of superior perovskite photovoltaics.Read moreRead less
Quantum microscopy meets photovoltaics: new tools for solar cell research. This project aims to create an innovative platform to characterise solar cells, based on recently developed quantum diamond microscopy. It will enable direct imaging of the current flow in operating photovoltaic devices, providing a new window into key processes such as charge collection and recombination. The platform will be applied to a range of industry-relevant photovoltaic materials and devices. Anticipated outcomes ....Quantum microscopy meets photovoltaics: new tools for solar cell research. This project aims to create an innovative platform to characterise solar cells, based on recently developed quantum diamond microscopy. It will enable direct imaging of the current flow in operating photovoltaic devices, providing a new window into key processes such as charge collection and recombination. The platform will be applied to a range of industry-relevant photovoltaic materials and devices. Anticipated outcomes include new insights into recombination processes and the effect of device degradation, which could facilitate optimisation of the power conversion efficiency and reliability of next-generation solar cells. Additional benefits include new instruments and methods that may find use in the solar cell manufacturing industry.Read moreRead less
Synchrotron X-ray absorption fine structure and fundamental X-ray interactions for nano-physics, chemistry and mineralogy. This project will develop new synchrotron techniques for measuring and interpreting X-ray data from materials targeting the nano-environment and bonding. The first wave of synchrotron nanotechnology is nascent. The project's X-ray methods develop techniques in applied mineralogy and catalysis. New insight will address key questions in chemistry, mining and biology.
Exploring the middle ground: new histories of cross-cultural encounters in Australian maritime and land exploration. This project seeks to reinvigorate Australian exploration history by examining it through the lens of cross-cultural encounters and relations. This will bring to the fore the experience of Aboriginal people who came into contact with explorers, as well as the experience of Aboriginal people who participated in exploration parties.